----------------------------------------------------------- Root Directory path: / ----------------------------------------------------------- readme.txt Documentation rearding this disc. docs/ Walnut Creek CDROM Documentation. netlib.faq Frequently asked questions about Netlib. netlib/ All the files on Netlib. netlib/a/ for approximation algorithms from various sources editor Eric Grosse master netlib.att.com netlib/access/ for netlib access tools, such as unshar editor Eric Grosse master netlib.att.com netlib/aicm/ for selected material from Advances in Computational Mathematics # journal published by Baltzer master netlib.att.com netlib/alliant/ for programs collected from Alliant users editor Jack Dongarra master ornl.gov netlib/amos/ for Bessel functions of complex argument and nonnegative order by D.E. Amos ref ACM TOMS 12 (1986) 265-273 algorithm 644 master ornl.gov # The Bessel functions H1, H2, I, J, K, and Y, as well as the Airy functions Ai, Bi, and their derivatives are provided. Exponential scaling and sequence generation are optional. netlib/ampl/ for linear and nonlinear programming. editor David Gay master netlib.att.com netlib/apollo/ for programs collected from Apollo users. editor Jack Dongarra master ornl.gov netlib/benchmark/ for contains benchmark programs and the table of Linpack timings. editor Jack Dongarra master ornl.gov netlib/bihar/ for biharmonic equation in rectangular geometry and polar coordinates by Petter Bjorstad master nac.no netlib/blacs/ for Basic Linear Algebra Communication Subprograms editor Clint Whaley contact blacs@cs.utk.edu master ornl.gov netlib/blas/ for blas (level 1, 2 and 3) and machine constants rel excellent age stable editor Jack Dongarra master ornl.gov netlib/bmp/ for Brent's multiple precision package master netlib.att.com netlib/c/ for miscellaneous codes written in C # Not all C software is in this "miscellaneous" library. If it clearly fits into domain specific library, it is assigned there. The principal contents at present is the c/meschach subdirectory by David Stewart covering linear algebra and utilities. See c/index for details. editor Eric Grosse master netlib.att.com netlib/c++/ for miscellaneous codes in C++ editor Eric Grosse master netlib.att.com netlib/chammp/ for DOE Computer Hardware, Advanced Mathematics and Model Physics program editor Jack Dongarra master ornl.gov netlib/cheney-kincaid/ by Ward Cheney & David Kincaid ref Numerical Mathematics and Computing, 2nd ed., 1985. master netlib.att.com netlib/clapack/ for C version of LAPACK by J. Demmel and Xiaoye Li rel pre-release lang C master ornl.gov netlib/commercial/ for advertising material for commercial math software editor ehg@research.att.com master netlib.att.com netlib/conformal/ for the "parameter problem" associated with conformal mapping editor Eric Grosse master netlib.att.com netlib/contin/ for continuation and limit points editor Eric Grosse master netlib.att.com netlib/dierckx/ for spline fitting routines for various kinds of data and geometries by Paul Dierckx # Comp Sci, K. U. Leuven, Celestijnenlaan 200A, B-3001 Heverlee, Belgium also called fitpack, but no connection with Alan Cline's library master netlib.att.com netlib/domino/ for multiple tasks to communicate and schedule local tasks for execution. # These tasks may be on a single processor or spread among multiple processors connected by a message-passing network. by O'Leary, Stewart, Van de Geijn, University of Maryland lang C, assembler master ornl.gov netlib/eispack/ for eigenvalues and eigenvectors A collection of Fortran subroutines that compute the eigenvalues and eigenvectors of nine classes of matrices. The package can determine the eigensystems of complex general, complex Hermitian, real general, real symmetric, real symmetric band, real symmetric tridiagonal, special real tridiagonal, generalized real, and generalized real symmetric matrices. In addition, there are two routines which use the singular value decomposition to solve certain least squares problems. netlib/eispack/ # Description carried over from above..... by NATS Project at Argonne National Laboratory prec double see seispack rel excellent age stable ref B.T. Smith, J.M. Boyle, J.J. Dongarra, B.S. Garbow, Y. Ikebe, V.C. Klema, and C.B. Moler. Matrix Eigensystem Routines - EISPACK Guide, volume 6 of Lecture Notes in Computer Science, Springer-Verlag, Berlin, 1976. B.S. Garbow, J.M. Boyle, J.J. Dongarra, and C.B. Moler. Matrix Eigensystem Routines - EISPACK Guide Extension, volume 51 of Lecture Notes in Computer Science, Springer-Verlag, Berlin, 1977. master ornl.gov netlib/elefunt/ for testing elementary function programs provided with Fortran compilers ref Software Manual for the Elementary Functions, Prentice Hall, 1980. by W. J. Cody and W. Waite master netlib.att.com netlib/env/ for integrated problem solving environments editor Eric Grosse master netlib.att.com netlib/f2c/ for converting Fortran to C by Feldman, Gay, Maimone, and Schryer editor David Gay master netlib.att.com gams s1 netlib/fdlibm/ for C math library for machines that support IEEE 754 floating-point by Kwok C Ng # Version: 5.1 Maintained-hy: fdlibm-comments@sunpro.eng.sun.com Maintained-at: sunsite.unc.edu Platforms: Require ANSI C compiler with IEEE 754 style arithmetic Copying-Policy: Freely Redistributable Keywords: libm,exp,log,sin,cos,floating-point,IEEE754 master netlib.att.com netlib/fftpack/ for Fast Fourier Transform of periodic and other symmetric sequences # This package consists of programs which perform Fast Fourier Transforms for both complex and real periodic sequences and certain other symmetric sequences. by Paul Swarztrauber, NCAR. see double precision version in bihar rel excellent age stable master netlib.att.com netlib/fishpack/ for finite differences for elliptic boundary value problems. by Paul Swarztrauber and Roland Sweet. # CRAYFISHPAK is a new expanded version of FISHPAK that has been totally rewritten for vector computers, on which order of magnitude speedups have been commonly observed. For more information contact Green Mountain Software, 1951 Alpine Ave., Boulder, Colorado, 80304-3657, USA, phone (303) 447-9224, or by email: lsweet@greenmtn.com (on internet). rel excellent age stable master netlib.att.com netlib/fitpack/ for splines under tension. (an early version) by Alan K. Cline # For a current copy and for other routines, contact: Pleasant Valley Software, 8603 Altus Cove, Austin TX 78759, USA master netlib.att.com netlib/fmm/ ref Computer Methods for Mathematical Computations by George Forsythe, Mike Malcolm, and Cleve Moler. prec double see sfmm master ornl.gov netlib/fn/ for special functions by Wayne Fullerton master netlib.att.com netlib/fortran/ for tools specific to Fortran: a single/double converter; static debugger master netlib.att.com netlib/fortran-m/ for small set of extensions to f77 that supports modular message-passing editor Jack Dongarra master ornl.gov netlib/fp/ for floating point arithmetic editor David Gay master netlib.att.com netlib/gcv/ for Generalized Cross Validation spline smoothing editor Eric Grosse master netlib.att.com netlib/gmat/ for multi-processing Time Line and State Graph tools. by Mark Seager (LLNL Oct 8, 1987) master ornl.gov # werner@ramius.llnl.gov (Nancy Werner) 26 Oct 90 netlib/gnu/ for utilities useful to netlib clients, covered by GNU public license editor David Gay master netlib.att.com netlib/go/ for Golden Oldies: widely used, but not in standard libraries. # Nominations welcome! rel excellent age old editor Eric Grosse master netlib.att.com netlib/graphics/ for scientific visualization editor Eric Grosse master netlib.att.com netlib/harwell/ for sparse unsymmetric matrix routine MA28 from the Harwell library editor Iain Duff master ornl.gov netlib/hence/ for Heterogenous Network Computing Environment editor Peter Newton master ornl.gov # only available from Tennessee, until either they agree to use shorter filenames or Plan9 agrees to allow long filenames netlib/hompack/ for solving nonlinear systems of equations by homotopy methods # fixed point, zero finding, and general homotopy curve tracking problems, utilizing both dense and sparse Jacobian matrices; ODE-based, normal flow, and augmented Jacobian. by Layne T. Watson ltw@vtopus.cs.vt.edu (703) 231-7540 # Department of Computer Science, VPI & SU, Blacksburg, VA 24061 master netlib.att.com netlib/hpf/ for first draft of language specification by High Performance Fortran Forum master ornl.gov netlib/ijsa/ for International Journal of Supercomputer Applications editor Jack Dongarra master ornl.gov netlib/image/ for image processing editor Eric Grosse master netlib.att.com see popi, a/blur netlib/intercom/ for Interprocessor Collective Communications (InterCom) Library by Mike Barnett, David Payne, Satya Gupta, Lance Shuler, Robert van de Geijn, and Jerrell Watts contact intercom@cs.utexas.edu editor Jack Dongarra master ornl.gov netlib/itpack/ for Iterative Linear System Solvers # Jacobi method, SOR, SSOR with conjugate gradient acceleration or with Chebyshev (semi-iteration - SI) acceleration. by Young and Kincaid and the group at U of Texas. # kincaid@cs.utexas.edu oppe@scri1.scri.fsu.edu joubert@cs.utexas.edu Center for Numerical Analysis; (512) 471-1242 RLM Bldg. 13.150; University of Texas at Austin; Austin TX 78713-8510 editor Bill Coughran master netlib.att.com netlib/jakef/ for automatic differentiation # a precompiler that analyses a given Fortran77 source code for the evaluation of a scalar or vector function and then generates an expanded Fortran subroutine that simultaneously evaluates the gradient or Jacobian respectively. For scalar functions the ratio between the run-time of the resulting gradient routine and that of the original evaluation routine is never greater than a fixed bound of about five. The storage requirement may be considerable as it is also proportional to the run-time of the original routine. Since no differencing is done the partial derivative values obtained are exact up to round-off errors. by A. Griewank, Argonne National Laboratory 12/1/88. master ornl.gov netlib/kincaid-cheney/ by Ward Cheney & David Kincaid ref Numerical Analysis: The Mathematics of Scientific Computing, 1990. master netlib.att.com netlib/lanczos/ for a few eigenvalues/eigenvectors of a large (sparse) symmetric matrix # real symmetric and Hermitian matrices singular values and vectors of real, rectangular matrices by Jane Cullum and Ralph A. Willoughby, IBM Yorktown 914-945-1589 ref Lanczos Algorithms for Large Symmetric Eigenvalue Computations, Birkhauser # Additional codes, for factored inverses, real symmetric generalized problems, complex symmetric problems and real symmetric block codes are available from the authors. master netlib.att.com see go/underwood.f netlib/lanz/ for Large Sparse Symmetric Generalized Eigenproblem by Mark T. Jones and Merrell L. Patrick master ornl.gov see go/underwood.f gams d4b1 netlib/lapack/ for the most common problems in numerical linear algebra linear equations, linear least squares problems, eigenvalue problems, and singular value problems. It has been designed to be efficient on a wide range of modern high-performance computers. by Ed Anderson, Z. Bai, Chris Bischof, Jim Demmel, Jack Dongarra, Jeremy Du Croz, Anne Greenbaum, Sven Hammarling, Alan McKenney, Susan Ostrouchov, and Danny Sorensen rel excellent age research ref LAPACK Users' Guide, May 1992, available from SIAM; 3600 University City Science Center; Philadelphia, PA 19104-2688; 215-382-9800, FAX 215-386-7999; service@siam.org master ornl.gov contact lapack@cs.utk.edu netlib/laso/ for a few eigenvalues/eigenvectors of a large (sparse) symmetric matrix alg Lanczos by David Scott master ornl.gov see go/underwood.f netlib/lawson-hanson/ for least squares by C. Lawson and R. Hanson ref "Solving Least Squares Problems," SIAM Publications lang Fortran77, Fortran90 master netlib.att.com netlib/linalg/ for various functions complementing the bigger linear algebra libraries editor Jack Dongarra master ornl.gov netlib/linpack/ for linear equations and linear least squares problems linear systems whose matrices are general, banded, symmetric indefinite, symmetric positive definite, triangular, and tridiagonal square. In addition, the package computes the QR and singular value decompositions of rectangular matrices and applies them to least squares problems. by Jack Dongarra , Jim Bunch, Cleve Moler and Pete Stewart. rel excellent age stable ref J. Bunch, J. Dongarra, C. Moler, and G.W. Stewart. LINPACK User's Guide. SIAM, Philadelphia, PA, 1979. master ornl.gov netlib/lp/ for linear programming test problems editor David Gay master netlib.att.com netlib/machines/ for information on high performance computers editor Jack Dongarra master ornl.gov netlib/maspar/ for MasPar-specific libraries and tools editor Petter Bjorstad master nac.no netlib/mds/ for multidimensional scaling age old editor kruskal@research.att.com master netlib.att.com netlib/microscope/ for looking closely at functions # Given an interpolation or approximation scheme, it allows the following questions, among others, to be answered: Does the scheme interpolate? How often is it differentiable? What functions does it reproduce exactly? If the scheme is polynomial, what is its polynomial degree? Where is the smoothness of a function reduced? Where are the bugs in a FORTRAN implementation? by Peter Alfeld and Bill Harris, Dept. Math., University of Utah # 801-581-6842 or 801-581-6851 master netlib.att.com netlib/minpack/ for nonlinear equations and nonlinear least squares problems. # Five algorithmic paths each include a core subroutine and an easy-to-use driver. The algorithms proceed either from an analytic specification of the Jacobian matrix or directly from the problem functions. The paths include facilities for systems of equations with a banded Jacobian matrix, for least squares problems with a large amount of data, and for checking the consistency of the Jacobian matrix with the functions. by Jorge More', Burt Garbow, and Ken Hillstrom at Argonne National Laboratory. prec double see sminpack master ornl.gov netlib/misc/ for various stuff collected over time editor Jack Dongarra master ornl.gov netlib/mpfun/ for multiple precision arithmetic by David Bailey master netlib.att.com netlib/napack/ for linear algebra and optimization # A collection of Fortran subroutines to solve linear systems, to estimate the condition number or the norm of a matrix, to compute determinants, to multiply a matrix by a vector, to invert a matrix, to solve least squares problems, to perform unconstrained minimization, to compute eigenvalues, eigenvectors, the singular value decomposition, or the QR decomposition. The package has special routines for general, band, symmetric, indefinite, tridiagonal, upper Hessenberg, and circulant matrices. by Bill Hager # Mathematics, Univ. Florida, Gainesville, FL 32611, hager@math.ufl.edu ref Applied Numerical Linear Algebra, Prentice-Hall, 1988. master netlib.att.com netlib/news/ for netlib column for SIAM News lang LaTeX by Eric Grosse master netlib.att.com netlib/numeralgo/ for algorithms from the new journal "Numerical Algorithms" master netlib.att.com netlib/ode/ for initial and boundary value ordinary differential equation solvers # colsys, dverk, rksuite, ode editor Bill Coughran master netlib.att.com netlib/odepack/ for ODE package by Alan Hindmarsh and others prec double see sodepack master netlib.att.com netlib/odrpack/ for Orthogonal Distance Regression by Boggs Byrd Rogers Schnabel # A portable collection of Fortran subprograms for fitting a model to data. It is designed primarily for instances when the independent as well as the dependent variables have significant errors, implementing a highly efficient algorithm for solving the weighted orthogonal distance regression problem, i.e., for minimizing the sum of the squares of the weighted orthogonal distances between each data point and the curve described by the model equation. master netlib.att.com netlib/opt/ for miscellaneous optimization software, e.g. Brent's praxis. editor David Gay master netlib.att.com netlib/p4/ for parallel programming system. # subroutines and macors for writing portable parallel programs in Frtran or C for execution on a wide variety of parallel machines and workstation networks. by Rusty Lusk, Argonne National Laboratory contact p4@mcs.anl.gov master netlib.att.com netlib/paragraph/ for graphical display of message-passing multiprocessor architectures. by Jennifer Etheridge and Michael Heath, Oak Ridge National Lab. master ornl.gov netlib/paranoia/ for exploring the floating point system on your computer. by Kahan, Berkeley editor David Gay master netlib.att.com netlib/parmacs/ for parallel programmming macros for monitors and send/receive by Rusty Lusk, Argonne National Lab (lusk@anl-mcs.arpa) master ornl.gov netlib/pascal/ for miscellaneous codes written in Pascal # At present, codes from J.C. Nash, Compact Numerical Methods for Computers: Linear Algebra and Function Minimisation, Second Edition Adam Hilger: Bristol & American Institute of Physics: New York, 1990 editor Eric Grosse master netlib.att.com netlib/pdes/ for partial differential equation packages editor Bill Coughran master netlib.att.com netlib/picl/ for generic message-passing interface to multiprocessors also provides timestamped trace data keywords portable, error trapping, parallel, interprocessor communication, instrumentation by Geist, Heath, Peyton, and Worley, Oak Ridge National Lab. contact worleyph@msr.epm.ornl.gov master ornl.gov netlib/pltmg/ for elliptic partial differential equations in general regions of the plane # It features adaptive local mesh refinement, multigrid iteration, and a pseudo-arclength continuation option for parameter dependencies. The package includes an initial mesh generator and several graphics packages. ref PLTMG User's Guide, SIAM publications by Randy Bank editor Bill Coughran master netlib.att.com netlib/poly2/ for conversion tools for polyhedra library by Stewart Dickson master netlib.att.com netlib/polyhedra/ for angles, vertex locations, etc of geometric solids by Andrew Hume master netlib.att.com netlib/popi/ for arbitrary manipulation of digitized images. ref Chap 5,6 of Beyond Photography--The Digital Darkroom, PrenticeHall by Gerard J. Holzmann master netlib.att.com netlib/port/ for public subset of the PORT library # Includes the latest version of Gay's NL2SOL nonlinear least squares. The rest of the PORT3 library is available by license from AT&T. editor David Gay master netlib.att.com netlib/portfix/ for bug fixes for functions in the proprietary part of the PORT library # only at netlib.att.com netlib/pppack/ for splines by Carl de Boor ref A Practical Guide to Splines, Springer Verlag. # Some calling sequences differ slightly from those in the book. rel excellent age old editor Eric Grosse master netlib.att.com netlib/pvm3/ for software and papers on a Parallel Virtual Machine (PVM) software for heterogeneous networking parallel processing in Fortran or C for execution on a wide variety of parallel machines, supercomputers, and workstation networks. by Beguelin, Dongarra, Geist, Jiang, Manchek, Moore, and Sunderam editor Jack Dongarra, University of Tennessee and Oak Ridge National Lab contact pvm@msr.epm.ornl.gov master ornl.gov netlib/quadpack/ for definite univariate integrals by Piessens, de Donker, Kahaner # (slatec version) master netlib.att.com netlib/random/ for random number generators editor Eric Grosse master netlib.att.com netlib/research/ for small tools from Computing Science Research, Bell Labs editor Eric Grosse master netlib.att.com netlib/scalapack/ for software for MIMD distributed memory computers for some of the # lapack routines editor Jack Dongarra, University of Tennessee and Oak Ridge National Lab master ornl.gov netlib/sched/ for the Schedule package, to aid transportable # implementation of parallel algorithms in a Fortran setting. by Jack Dongarra and Dan Sorensen master ornl.gov netlib/scilib/ # a portable FORTRAN emulation (by M.J. McBride and S.H. Lamson) of CRAY SCILIB, a library of scientific applications subprograms developed by Cray Research, Inc. editor Jack Dongarra contact Scott Lamson master ornl.gov netlib/seispack/ for eigenvalues and eigenvectors # A collection of Fortran subroutines that compute the eigenvalues and eigenvectors of nine classes of matrices. The package can determine the eigensystems of complex general, complex Hermitian, real general, real symmetric, real symmetric band, real symmetric tridiagonal, special real tridiagonal, generalized real, and generalized real symmetric matrices. In addition, there are two routines which use the singular value decomposition to solve certain least squares problems. by NATS Project at Argonne National Laboratory. prec single see eispack master ornl.gov netlib/sequent/ for software from the Sequent Users Group editor Jack Dongarra master ornl.gov netlib/sfmm/ ref Computer Methods for Mathematical Computations by George Forsythe, Mike Malcolm, and Cleve Moler. see fmm prec single master ornl.gov netlib/slap/ for iterative symmetric and non-symmetric linear system solution # Sparse Linear Algebra Package. Included in this package are core routines to do Iterative Refinement iteration, Preconditioned Conjugate Gradient iteration, Preconditioned Conjugate Gradient iteration on the Normal Equations, Preconditioned BiConjugate Gradient iteration, Preconditioned BiConjugate Gradient Squared iteration, Orthomin iteration and Generalized Minimum Residual iteration. Core routines require the user to supply "MATVEC" (Matrix Vector Multiply) and "MSOLVE" (Preconditiong) routines. by Mark K. Seager & Anne Greenbaum editor Jack Dongarra master ornl.gov netlib/slatec/ # comprehensive software library containing over 1400 general purpose mathematical and statistical routines written in Fortran 77. editor Tom Rowan master ornl.gov netlib/sminpack/ for nonlinear equations and nonlinear least squares problems. # Five algorithmic paths each include a core subroutine and an easy-to-use driver. The algorithms proceed either from an analytic specification of the Jacobian matrix or directly from the problem functions. The paths include facilities for systems of equations with a banded Jacobian matrix, for least squares problems with a large amount of data, and for checking the consistency of the Jacobian matrix with the functions. by Jorge More', Burt Garbow, and Ken Hillstrom at Argonne National Laboratory. prec single see minpack master ornl.gov netlib/sodepack/ for ODE package by Alan Hindmarch and others prec single see odepack master netlib.att.com netlib/sparse/ for large sparse systems of linear equations using LU factorization. # real and complex square Besides being able to solve linear systems, it is solves transposed systems, find determinants, multiplies a vector by a matrix, and estimate errors due to ill-conditioning in the system of equations and instability in the computations. Sparse does not require symmetry and is able to perform numerical pivoting (either diagonal or complete) to avoid unnecessary error in the solution. by Ken Kundert, Alberto Sangiovanni-Vincentelli. (sparse@ic.berkeley.edu) lang C editor Jack Dongarra master ornl.gov netlib/sparse-blas/ for sparse extension to Basic Linear Algebra Subprograms. by Dave Dodson convex!dodson@a.cs.uiuc.edu editor Jack Dongarra master ornl.gov netlib/sparspak/ # withdrawn by authors' request master netlib.att.com netlib/specfun/ for special functions and accompanying test programs by W.J. Cody, Argonne National Laboratory master ornl.gov netlib/spin/ for Automated Verification of Concurrent Systems. ref `Design and Validation of Computer Protocols,' Prentice Hall, 1991 by Gerard J. Holzmann master netlib.att.com netlib/stoeplitz/ for linear systems of Toeplitz or circulant form # and for orthogonal factorization of column-circulant matrices. by Burt Garbow at Argonne National Laboratory, # as a culmination of Soviet-American collaborative effort. prec single see toeplitz master ornl.gov netlib/stringsearch/ for testing string matching algorithms # This is a library of code, test data and harnesses for various kinds of string matching, includeing Boyer-Moore. by Hume and Sunday andrew@netlib.att.com ref "Fast String Searching", Software-Practice and Experience master netlib.att.com netlib/svdpack/ for singular values and singular vectors of large sparse matrices. by Mike Berry, University of Tennessee. master ornl.gov contact berry@cs.utk.edu netlib/templates/ for "one-liner" drivers of common numerical algorithms Also, codes from Templates book. master ornl.gov netlib/toeplitz/ for linear systems of Toeplitz or circulant form # and for orthogonal factorization of column-circulant matrices. by Burt Garbow at Argonne National Laboratory, # as a culmination of Soviet-American collaborative effort. prec double see stoeplitz master ornl.gov netlib/typesetting/ for troff and TeX macros editor Eric Grosse master netlib.att.com netlib/uncon/ for unconstrained optimization master netlib.att.com netlib/vanhuffel/ for total least squares, Partial Singular Value Decomposition # The TLS problem assumes an overdetermined set of linear equations AX = B, where both the data matrix A as well as the observation matrix B are inaccurate. The subroutine PTLS solves the Total Least Squares (TLS) problem by using a Partial Singular Value Decomposition (PSVD), hereby improving considerably the computational efficiency with respect to the classi- cal TLS algorithm. by Sabine VAN HUFFEL, KU Leuven. master netlib.att.com netlib/vfftpack/ for a vectorized version of fftpack, for multiple sequences. by Sweet, Lindgren, and Boisvert. master netlib.att.com netlib/vfnlib/ for vectorized evaluation of special functions alg chebyshev series approximation by Ron Boisvert and Bonita Saunders ref ACM Trans Math Softw, vol 18 (1992), no 4, pp 456-469 age research see fn master netlib.att.com netlib/voronoi/ for Voronoi regions and Delaunay triangulations editor Eric Grosse master netlib.att.com netlib/y12m/ for sparse linear systems by Zahari Zlatev, Jerzy Wasniewski and Kjeld Schaumburg Comp Sci; Math Inst; Univ Aarhus; Ny Munkegade; DK 8000 Aarhus ref Z. Zlatev et.al., Y12M solution of large and sparse systems of linear algebraic equations, Lecture Notes in Computer Science Volume 121, Springer, 1981. master ornl.gov ----------------------------------------------------------- Walnut Creek CDROM Documentation. path: /docs/ ----------------------------------------------------------- catalog.txt 45732 07-17-95 Walnut Creek CDROM Product Catalog - | English catalog.fre 40520 03-25-95 Walnut Creek CDROM Product Catalog - French catalog.ger 44521 07-24-95 Walnut Creek CDROM Product Catalog - German catalog.ita 38525 06-15-95 Walnut Creek CDROM Product Catalog - | Italian catalog.spa 40882 06-10-95 Walnut Creek CDROM Product Catalog - | Spanish catalog.jpn 29684 09-07-95 Walnut Creek CDROM Product Catalog - | Japanese catalog.pdf 3374815 04-05-95 Walnut Creek CDROM Product Catalog - Adobe | Acrobat format view.doc 6832 03-24-95 Documentation about the VIEW.EXE program on | this CDROM ----------------------------------------------------------- All the files on Netlib. path: /netlib/ ----------------------------------------------------------- a/ for approximation algorithms from various sources editor Eric Grosse master netlib.att.com access/ for netlib access tools, such as unshar editor Eric Grosse master netlib.att.com aicm/ for selected material from Advances in Computational Mathematics # journal published by Baltzer master netlib.att.com alliant/ for programs collected from Alliant users editor Jack Dongarra master ornl.gov amos/ for Bessel functions of complex argument and nonnegative order by D.E. Amos ref ACM TOMS 12 (1986) 265-273 algorithm 644 master ornl.gov # The Bessel functions H1, H2, I, J, K, and Y, as well as the Airy functions Ai, Bi, and their derivatives are provided. Exponential scaling and sequence generation are optional. ampl/ for linear and nonlinear programming. editor David Gay master netlib.att.com apollo/ for programs collected from Apollo users. editor Jack Dongarra master ornl.gov benchmark/ for contains benchmark programs and the table of Linpack timings. editor Jack Dongarra master ornl.gov bihar/ for biharmonic equation in rectangular geometry and polar coordinates by Petter Bjorstad master nac.no blacs/ for Basic Linear Algebra Communication Subprograms editor Clint Whaley contact blacs@cs.utk.edu master ornl.gov blas/ for blas (level 1, 2 and 3) and machine constants rel excellent age stable editor Jack Dongarra master ornl.gov bmp/ for Brent's multiple precision package master netlib.att.com c/ for miscellaneous codes written in C # Not all C software is in this "miscellaneous" library. If it clearly fits into domain specific library, it is assigned there. The principal contents at present is the c/meschach subdirectory by David Stewart covering linear algebra and utilities. See c/index for details. editor Eric Grosse master netlib.att.com c++/ for miscellaneous codes in C++ editor Eric Grosse master netlib.att.com chammp/ for DOE Computer Hardware, Advanced Mathematics and Model Physics program editor Jack Dongarra master ornl.gov cheney-kincaid/ by Ward Cheney & David Kincaid ref Numerical Mathematics and Computing, 2nd ed., 1985. master netlib.att.com clapack/ for C version of LAPACK by J. Demmel and Xiaoye Li rel pre-release lang C master ornl.gov commercial/ for advertising material for commercial math software editor ehg@research.att.com master netlib.att.com conformal/ for the "parameter problem" associated with conformal mapping editor Eric Grosse master netlib.att.com contin/ for continuation and limit points editor Eric Grosse master netlib.att.com dierckx/ for spline fitting routines for various kinds of data and geometries by Paul Dierckx # Comp Sci, K. U. Leuven, Celestijnenlaan 200A, B-3001 Heverlee, Belgium also called fitpack, but no connection with Alan Cline's library master netlib.att.com domino/ for multiple tasks to communicate and schedule local tasks for execution. # These tasks may be on a single processor or spread among multiple processors connected by a message-passing network. by O'Leary, Stewart, Van de Geijn, University of Maryland lang C, assembler master ornl.gov eispack/ for eigenvalues and eigenvectors A collection of Fortran subroutines that compute the eigenvalues and eigenvectors of nine classes of matrices. The package can determine the eigensystems of complex general, complex Hermitian, real general, real symmetric, real symmetric band, real symmetric tridiagonal, special real tridiagonal, generalized real, and generalized real symmetric matrices. In addition, there are two routines which use the singular value decomposition to solve certain least squares problems. eispack/ # Description carried over from above..... by NATS Project at Argonne National Laboratory prec double see seispack rel excellent age stable ref B.T. Smith, J.M. Boyle, J.J. Dongarra, B.S. Garbow, Y. Ikebe, V.C. Klema, and C.B. Moler. Matrix Eigensystem Routines - EISPACK Guide, volume 6 of Lecture Notes in Computer Science, Springer-Verlag, Berlin, 1976. B.S. Garbow, J.M. Boyle, J.J. Dongarra, and C.B. Moler. Matrix Eigensystem Routines - EISPACK Guide Extension, volume 51 of Lecture Notes in Computer Science, Springer-Verlag, Berlin, 1977. master ornl.gov elefunt/ for testing elementary function programs provided with Fortran compilers ref Software Manual for the Elementary Functions, Prentice Hall, 1980. by W. J. Cody and W. Waite master netlib.att.com env/ for integrated problem solving environments editor Eric Grosse master netlib.att.com f2c/ for converting Fortran to C by Feldman, Gay, Maimone, and Schryer editor David Gay master netlib.att.com gams s1 fdlibm/ for C math library for machines that support IEEE 754 floating-point by Kwok C Ng # Version: 5.1 Maintained-hy: fdlibm-comments@sunpro.eng.sun.com Maintained-at: sunsite.unc.edu Platforms: Require ANSI C compiler with IEEE 754 style arithmetic Copying-Policy: Freely Redistributable Keywords: libm,exp,log,sin,cos,floating-point,IEEE754 master netlib.att.com fftpack/ for Fast Fourier Transform of periodic and other symmetric sequences # This package consists of programs which perform Fast Fourier Transforms for both complex and real periodic sequences and certain other symmetric sequences. by Paul Swarztrauber, NCAR. see double precision version in bihar rel excellent age stable master netlib.att.com fishpack/ for finite differences for elliptic boundary value problems. by Paul Swarztrauber and Roland Sweet. # CRAYFISHPAK is a new expanded version of FISHPAK that has been totally rewritten for vector computers, on which order of magnitude speedups have been commonly observed. For more information contact Green Mountain Software, 1951 Alpine Ave., Boulder, Colorado, 80304-3657, USA, phone (303) 447-9224, or by email: lsweet@greenmtn.com (on internet). rel excellent age stable master netlib.att.com fitpack/ for splines under tension. (an early version) by Alan K. Cline # For a current copy and for other routines, contact: Pleasant Valley Software, 8603 Altus Cove, Austin TX 78759, USA master netlib.att.com fmm/ ref Computer Methods for Mathematical Computations by George Forsythe, Mike Malcolm, and Cleve Moler. prec double see sfmm master ornl.gov fn/ for special functions by Wayne Fullerton master netlib.att.com fortran/ for tools specific to Fortran: a single/double converter; static debugger master netlib.att.com fortran-m/ for small set of extensions to f77 that supports modular message-passing editor Jack Dongarra master ornl.gov fp/ for floating point arithmetic editor David Gay master netlib.att.com gcv/ for Generalized Cross Validation spline smoothing editor Eric Grosse master netlib.att.com gmat/ for multi-processing Time Line and State Graph tools. by Mark Seager (LLNL Oct 8, 1987) master ornl.gov # werner@ramius.llnl.gov (Nancy Werner) 26 Oct 90 gnu/ for utilities useful to netlib clients, covered by GNU public license editor David Gay master netlib.att.com go/ for Golden Oldies: widely used, but not in standard libraries. # Nominations welcome! rel excellent age old editor Eric Grosse master netlib.att.com graphics/ for scientific visualization editor Eric Grosse master netlib.att.com harwell/ for sparse unsymmetric matrix routine MA28 from the Harwell library editor Iain Duff master ornl.gov hence/ for Heterogenous Network Computing Environment editor Peter Newton master ornl.gov # only available from Tennessee, until either they agree to use shorter filenames or Plan9 agrees to allow long filenames hompack/ for solving nonlinear systems of equations by homotopy methods # fixed point, zero finding, and general homotopy curve tracking problems, utilizing both dense and sparse Jacobian matrices; ODE-based, normal flow, and augmented Jacobian. by Layne T. Watson ltw@vtopus.cs.vt.edu (703) 231-7540 # Department of Computer Science, VPI & SU, Blacksburg, VA 24061 master netlib.att.com hpf/ for first draft of language specification by High Performance Fortran Forum master ornl.gov ijsa/ for International Journal of Supercomputer Applications editor Jack Dongarra master ornl.gov image/ for image processing editor Eric Grosse master netlib.att.com see popi, a/blur intercom/ for Interprocessor Collective Communications (InterCom) Library by Mike Barnett, David Payne, Satya Gupta, Lance Shuler, Robert van de Geijn, and Jerrell Watts contact intercom@cs.utexas.edu editor Jack Dongarra master ornl.gov itpack/ for Iterative Linear System Solvers # Jacobi method, SOR, SSOR with conjugate gradient acceleration or with Chebyshev (semi-iteration - SI) acceleration. by Young and Kincaid and the group at U of Texas. # kincaid@cs.utexas.edu oppe@scri1.scri.fsu.edu joubert@cs.utexas.edu Center for Numerical Analysis; (512) 471-1242 RLM Bldg. 13.150; University of Texas at Austin; Austin TX 78713-8510 editor Bill Coughran master netlib.att.com jakef/ for automatic differentiation # a precompiler that analyses a given Fortran77 source code for the evaluation of a scalar or vector function and then generates an expanded Fortran subroutine that simultaneously evaluates the gradient or Jacobian respectively. For scalar functions the ratio between the run-time of the resulting gradient routine and that of the original evaluation routine is never greater than a fixed bound of about five. The storage requirement may be considerable as it is also proportional to the run-time of the original routine. Since no differencing is done the partial derivative values obtained are exact up to round-off errors. by A. Griewank, Argonne National Laboratory 12/1/88. master ornl.gov kincaid-cheney/ by Ward Cheney & David Kincaid ref Numerical Analysis: The Mathematics of Scientific Computing, 1990. master netlib.att.com lanczos/ for a few eigenvalues/eigenvectors of a large (sparse) symmetric matrix # real symmetric and Hermitian matrices singular values and vectors of real, rectangular matrices by Jane Cullum and Ralph A. Willoughby, IBM Yorktown 914-945-1589 ref Lanczos Algorithms for Large Symmetric Eigenvalue Computations, Birkhauser # Additional codes, for factored inverses, real symmetric generalized problems, complex symmetric problems and real symmetric block codes are available from the authors. master netlib.att.com see go/underwood.f lanz/ for Large Sparse Symmetric Generalized Eigenproblem by Mark T. Jones and Merrell L. Patrick master ornl.gov see go/underwood.f gams d4b1 lapack/ for the most common problems in numerical linear algebra linear equations, linear least squares problems, eigenvalue problems, and singular value problems. It has been designed to be efficient on a wide range of modern high-performance computers. by Ed Anderson, Z. Bai, Chris Bischof, Jim Demmel, Jack Dongarra, Jeremy Du Croz, Anne Greenbaum, Sven Hammarling, Alan McKenney, Susan Ostrouchov, and Danny Sorensen rel excellent age research ref LAPACK Users' Guide, May 1992, available from SIAM; 3600 University City Science Center; Philadelphia, PA 19104-2688; 215-382-9800, FAX 215-386-7999; service@siam.org master ornl.gov contact lapack@cs.utk.edu laso/ for a few eigenvalues/eigenvectors of a large (sparse) symmetric matrix alg Lanczos by David Scott master ornl.gov see go/underwood.f lawson-hanson/ for least squares by C. Lawson and R. Hanson ref "Solving Least Squares Problems," SIAM Publications lang Fortran77, Fortran90 master netlib.att.com linalg/ for various functions complementing the bigger linear algebra libraries editor Jack Dongarra master ornl.gov linpack/ for linear equations and linear least squares problems linear systems whose matrices are general, banded, symmetric indefinite, symmetric positive definite, triangular, and tridiagonal square. In addition, the package computes the QR and singular value decompositions of rectangular matrices and applies them to least squares problems. by Jack Dongarra , Jim Bunch, Cleve Moler and Pete Stewart. rel excellent age stable ref J. Bunch, J. Dongarra, C. Moler, and G.W. Stewart. LINPACK User's Guide. SIAM, Philadelphia, PA, 1979. master ornl.gov lp/ for linear programming test problems editor David Gay master netlib.att.com machines/ for information on high performance computers editor Jack Dongarra master ornl.gov maspar/ for MasPar-specific libraries and tools editor Petter Bjorstad master nac.no mds/ for multidimensional scaling age old editor kruskal@research.att.com master netlib.att.com microscope/ for looking closely at functions # Given an interpolation or approximation scheme, it allows the following questions, among others, to be answered: Does the scheme interpolate? How often is it differentiable? What functions does it reproduce exactly? If the scheme is polynomial, what is its polynomial degree? Where is the smoothness of a function reduced? Where are the bugs in a FORTRAN implementation? by Peter Alfeld and Bill Harris, Dept. Math., University of Utah # 801-581-6842 or 801-581-6851 master netlib.att.com minpack/ for nonlinear equations and nonlinear least squares problems. # Five algorithmic paths each include a core subroutine and an easy-to-use driver. The algorithms proceed either from an analytic specification of the Jacobian matrix or directly from the problem functions. The paths include facilities for systems of equations with a banded Jacobian matrix, for least squares problems with a large amount of data, and for checking the consistency of the Jacobian matrix with the functions. by Jorge More', Burt Garbow, and Ken Hillstrom at Argonne National Laboratory. prec double see sminpack master ornl.gov misc/ for various stuff collected over time editor Jack Dongarra master ornl.gov mpfun/ for multiple precision arithmetic by David Bailey master netlib.att.com na-digest/ for numerical analysis mailing list napack/ for linear algebra and optimization # A collection of Fortran subroutines to solve linear systems, to estimate the condition number or the norm of a matrix, to compute determinants, to multiply a matrix by a vector, to invert a matrix, to solve least squares problems, to perform unconstrained minimization, to compute eigenvalues, eigenvectors, the singular value decomposition, or the QR decomposition. The package has special routines for general, band, symmetric, indefinite, tridiagonal, upper Hessenberg, and circulant matrices. by Bill Hager # Mathematics, Univ. Florida, Gainesville, FL 32611, hager@math.ufl.edu ref Applied Numerical Linear Algebra, Prentice-Hall, 1988. master netlib.att.com news/ for netlib column for SIAM News lang LaTeX by Eric Grosse master netlib.att.com numeralgo/ for algorithms from the new journal "Numerical Algorithms" master netlib.att.com ode/ for initial and boundary value ordinary differential equation solvers # colsys, dverk, rksuite, ode editor Bill Coughran master netlib.att.com odepack/ for ODE package by Alan Hindmarsh and others prec double see sodepack master netlib.att.com odrpack/ for Orthogonal Distance Regression by Boggs Byrd Rogers Schnabel # A portable collection of Fortran subprograms for fitting a model to data. It is designed primarily for instances when the independent as well as the dependent variables have significant errors, implementing a highly efficient algorithm for solving the weighted orthogonal distance regression problem, i.e., for minimizing the sum of the squares of the weighted orthogonal distances between each data point and the curve described by the model equation. master netlib.att.com opt/ for miscellaneous optimization software, e.g. Brent's praxis. editor David Gay master netlib.att.com p4/ for parallel programming system. # subroutines and macors for writing portable parallel programs in Frtran or C for execution on a wide variety of parallel machines and workstation networks. by Rusty Lusk, Argonne National Laboratory contact p4@mcs.anl.gov master netlib.att.com paragraph/ for graphical display of message-passing multiprocessor architectures. by Jennifer Etheridge and Michael Heath, Oak Ridge National Lab. master ornl.gov paranoia/ for exploring the floating point system on your computer. by Kahan, Berkeley editor David Gay master netlib.att.com parmacs/ for parallel programmming macros for monitors and send/receive by Rusty Lusk, Argonne National Lab (lusk@anl-mcs.arpa) master ornl.gov pascal/ for miscellaneous codes written in Pascal # At present, codes from J.C. Nash, Compact Numerical Methods for Computers: Linear Algebra and Function Minimisation, Second Edition Adam Hilger: Bristol & American Institute of Physics: New York, 1990 editor Eric Grosse master netlib.att.com pdes/ for partial differential equation packages editor Bill Coughran master netlib.att.com picl/ for generic message-passing interface to multiprocessors also provides timestamped trace data keywords portable, error trapping, parallel, interprocessor communication, instrumentation by Geist, Heath, Peyton, and Worley, Oak Ridge National Lab. contact worleyph@msr.epm.ornl.gov master ornl.gov pltmg/ for elliptic partial differential equations in general regions of the plane # It features adaptive local mesh refinement, multigrid iteration, and a pseudo-arclength continuation option for parameter dependencies. The package includes an initial mesh generator and several graphics packages. ref PLTMG User's Guide, SIAM publications by Randy Bank editor Bill Coughran master netlib.att.com poly2/ for conversion tools for polyhedra library by Stewart Dickson master netlib.att.com polyhedra/ for angles, vertex locations, etc of geometric solids by Andrew Hume master netlib.att.com popi/ for arbitrary manipulation of digitized images. ref Chap 5,6 of Beyond Photography--The Digital Darkroom, PrenticeHall by Gerard J. Holzmann master netlib.att.com port/ for public subset of the PORT library # Includes the latest version of Gay's NL2SOL nonlinear least squares. The rest of the PORT3 library is available by license from AT&T. editor David Gay master netlib.att.com portfix/ for bug fixes for functions in the proprietary part of the PORT library # only at netlib.att.com pppack/ for splines by Carl de Boor ref A Practical Guide to Splines, Springer Verlag. # Some calling sequences differ slightly from those in the book. rel excellent age old editor Eric Grosse master netlib.att.com pvm3/ for software and papers on a Parallel Virtual Machine (PVM) software for heterogeneous networking parallel processing in Fortran or C for execution on a wide variety of parallel machines, supercomputers, and workstation networks. by Beguelin, Dongarra, Geist, Jiang, Manchek, Moore, and Sunderam editor Jack Dongarra, University of Tennessee and Oak Ridge National Lab contact pvm@msr.epm.ornl.gov master ornl.gov quadpack/ for definite univariate integrals by Piessens, de Donker, Kahaner # (slatec version) master netlib.att.com random/ for random number generators editor Eric Grosse master netlib.att.com research/ for small tools from Computing Science Research, Bell Labs editor Eric Grosse master netlib.att.com scalapack/ for software for MIMD distributed memory computers for some of the # lapack routines editor Jack Dongarra, University of Tennessee and Oak Ridge National Lab master ornl.gov sched/ for the Schedule package, to aid transportable # implementation of parallel algorithms in a Fortran setting. by Jack Dongarra and Dan Sorensen master ornl.gov scilib/ # a portable FORTRAN emulation (by M.J. McBride and S.H. Lamson) of CRAY SCILIB, a library of scientific applications subprograms developed by Cray Research, Inc. editor Jack Dongarra contact Scott Lamson master ornl.gov seispack/ for eigenvalues and eigenvectors # A collection of Fortran subroutines that compute the eigenvalues and eigenvectors of nine classes of matrices. The package can determine the eigensystems of complex general, complex Hermitian, real general, real symmetric, real symmetric band, real symmetric tridiagonal, special real tridiagonal, generalized real, and generalized real symmetric matrices. In addition, there are two routines which use the singular value decomposition to solve certain least squares problems. by NATS Project at Argonne National Laboratory. prec single see eispack master ornl.gov sequent/ for software from the Sequent Users Group editor Jack Dongarra master ornl.gov sfmm/ ref Computer Methods for Mathematical Computations by George Forsythe, Mike Malcolm, and Cleve Moler. see fmm prec single master ornl.gov slap/ for iterative symmetric and non-symmetric linear system solution # Sparse Linear Algebra Package. Included in this package are core routines to do Iterative Refinement iteration, Preconditioned Conjugate Gradient iteration, Preconditioned Conjugate Gradient iteration on the Normal Equations, Preconditioned BiConjugate Gradient iteration, Preconditioned BiConjugate Gradient Squared iteration, Orthomin iteration and Generalized Minimum Residual iteration. Core routines require the user to supply "MATVEC" (Matrix Vector Multiply) and "MSOLVE" (Preconditiong) routines. by Mark K. Seager & Anne Greenbaum editor Jack Dongarra master ornl.gov slatec/ # comprehensive software library containing over 1400 general purpose mathematical and statistical routines written in Fortran 77. editor Tom Rowan master ornl.gov sminpack/ for nonlinear equations and nonlinear least squares problems. # Five algorithmic paths each include a core subroutine and an easy-to-use driver. The algorithms proceed either from an analytic specification of the Jacobian matrix or directly from the problem functions. The paths include facilities for systems of equations with a banded Jacobian matrix, for least squares problems with a large amount of data, and for checking the consistency of the Jacobian matrix with the functions. by Jorge More', Burt Garbow, and Ken Hillstrom at Argonne National Laboratory. prec single see minpack master ornl.gov sodepack/ for ODE package by Alan Hindmarch and others prec single see odepack master netlib.att.com sparse/ for large sparse systems of linear equations using LU factorization. # real and complex square Besides being able to solve linear systems, it is solves transposed systems, find determinants, multiplies a vector by a matrix, and estimate errors due to ill-conditioning in the system of equations and instability in the computations. Sparse does not require symmetry and is able to perform numerical pivoting (either diagonal or complete) to avoid unnecessary error in the solution. by Ken Kundert, Alberto Sangiovanni-Vincentelli. (sparse@ic.berkeley.edu) lang C editor Jack Dongarra master ornl.gov sparse-blas/ for sparse extension to Basic Linear Algebra Subprograms. by Dave Dodson convex!dodson@a.cs.uiuc.edu editor Jack Dongarra master ornl.gov sparspak/ # withdrawn by authors' request master netlib.att.com specfun/ for special functions and accompanying test programs by W.J. Cody, Argonne National Laboratory master ornl.gov spin/ for Automated Verification of Concurrent Systems. ref `Design and Validation of Computer Protocols,' Prentice Hall, 1991 by Gerard J. Holzmann master netlib.att.com stoeplitz/ for linear systems of Toeplitz or circulant form # and for orthogonal factorization of column-circulant matrices. by Burt Garbow at Argonne National Laboratory, # as a culmination of Soviet-American collaborative effort. prec single see toeplitz master ornl.gov stringsearch/ for testing string matching algorithms # This is a library of code, test data and harnesses for various kinds of string matching, includeing Boyer-Moore. by Hume and Sunday andrew@netlib.att.com ref "Fast String Searching", Software-Practice and Experience master netlib.att.com svdpack/ for singular values and singular vectors of large sparse matrices. by Mike Berry, University of Tennessee. master ornl.gov contact berry@cs.utk.edu templates/ for "one-liner" drivers of common numerical algorithms Also, codes from Templates book. master ornl.gov toeplitz/ for linear systems of Toeplitz or circulant form # and for orthogonal factorization of column-circulant matrices. by Burt Garbow at Argonne National Laboratory, # as a culmination of Soviet-American collaborative effort. prec double see stoeplitz master ornl.gov typesetting/ for troff and TeX macros editor Eric Grosse master netlib.att.com uncon/ for unconstrained optimization master netlib.att.com vanhuffel/ for total least squares, Partial Singular Value Decomposition # The TLS problem assumes an overdetermined set of linear equations AX = B, where both the data matrix A as well as the observation matrix B are inaccurate. The subroutine PTLS solves the Total Least Squares (TLS) problem by using a Partial Singular Value Decomposition (PSVD), hereby improving considerably the computational efficiency with respect to the classi- cal TLS algorithm. by Sabine VAN HUFFEL, KU Leuven. master netlib.att.com vfftpack/ for a vectorized version of fftpack, for multiple sequences. by Sweet, Lindgren, and Boisvert. master netlib.att.com vfnlib/ for vectorized evaluation of special functions alg chebyshev series approximation by Ron Boisvert and Bonita Saunders ref ACM Trans Math Softw, vol 18 (1992), no 4, pp 456-469 age research see fn master netlib.att.com voronoi/ for Voronoi regions and Delaunay triangulations editor Eric Grosse master netlib.att.com y12m/ for sparse linear systems by Zahari Zlatev, Jerzy Wasniewski and Kjeld Schaumburg Comp Sci; Math Inst; Univ Aarhus; Ny Munkegade; DK 8000 Aarhus ref Z. Zlatev et.al., Y12M solution of large and sparse systems of linear algebraic equations, Lecture Notes in Computer Science Volume 121, Springer, 1981. master ornl.gov ----------------------------------------------------------- for approximation algorithms from various sources path: /netlib/a/ ----------------------------------------------------------- dloess/ for smoothing of multivariate scattered data by Cleveland, Grosse, and Shyu ref Statistics and Computation 1:1 prec double lang Fortran77 and C gams K5, L8h alg moving least squares quadratic, k-d trees, blending functions see go/lowess (for the older, univariate code) cloess.ps for user manual for a/dloess by Cleveland, Grosse, and Shyu size 701 kB loess/ for Fortran-only, limited version of a/dloess stl/ for decompose time series into trend + seasonal + remainder by Cleveland and Cleveland lang Fortran77 gams K5, L10a cdfcor.f for rational approximation to finite set of data by E. H. Kaufman, Jr. and G. D. Taylor alg differential correction algorithm to compute a best uniform generalized rational approximation p/q to a function defined on a finite set of grid points, with the options of including a weight function and linear equality and inequality constraints on the coefficients. gams k2 difcor for rational approximation to finite set of data by E. H. KAUFMAN, JR. AND G. D. TAYLOR lang Fortran77 alg differential correction sdifcor for rational approximation to finite set of data by E. H. KAUFMAN, JR. AND G. D. TAYLOR lang Fortran77 alg differential correction gams k2 sdifcor.doc for rational approximation to finite set of data by E. H. KAUFMAN, JR. AND G. D. TAYLOR lang Fortran77 alg differential correction gaim for fitting generalized additive models, by T. Hastie and R. Tibshirani ref Stat. Sci 1,297 and JASA June 1987. lang Fortran77 gams l8h fun.f for test functions for approximation algorithms gams k6d masa.f for approximation for scattered data in many variables by J. H. Friedman and E. H. Grosse and W. Stuetzle", ref SIAM J. Sci Stat Comp 4,291-301 a dusty old deck from Stanford, 1980 gams k1b1a dbspvt.f for derivatives of B-splines with respect to knots by Eric Grosse, derived from de Boor's pppack/bsplvb ref Grosse and Hobby, Improved Rounding for Spline Coefficients... prec double gams e3d, k6d coca/ for COmplex linear Chebyshev Approximation by Bernd Fischer and Jan Modersitzki ref Fischer and Modersitzki, An Algorithm for Complex Linear Approximation.. lang matlab gams k2 beatson for bivariate monotone interpolation by Beatson and Ziegler Mar 85 lang fortran gams e2a perlman/ for normal, chi-square, and F distributions alg translations of TOMS algorithms into C by Gary Perlman. gams l5a1c, l5a1f, l5a1n tension for splines under tension lang C by J. R. Van Zandt alg A. K. Cline. gams e1a datred/ title P19253 for knot removal from B-spline curve by Knut Moerken and Tom Lyche ref IMA J. of Num. Anal. 8 (1988) 185-208. CAGD 4 (1987) 217-230. lang Fortran uuencoded compressed shar gams e3d, k2, k6b, k6d size 274 kB minsurf1.f for minimal surfaces alg Sobolev gradients by R. J. Renka and J. W. Neuberger ref SIAM J. Sci. Comp., to appear minsurf2.f for minimal surfaces alg Sobolev gradients by R. J. Renka and J. W. Neuberger ref SIAM J. Sci. Comp., to appear ----------------------------------------------------------- for COmplex linear Chebyshev Approximation path: /netlib/a/coca/ ----------------------------------------------------------- README bounds.m circle.m circle_c.m cluster.m coca.m compnorm.m convstr.m def_var.m ellips_c.m ellipse.m errfun.m exam_11.m exam_12.m exam_13.m exam_14.m exam_21.m exam_22.m exam_23.m exam_31.m exam_32.m exam_33.m exam_34.m exam_41.m exam_42.m exam_43.m exam_51.m exam_52.m exam_53.m fcos.m fexp.m fmonom.m fone.m fpole_c.m fsin.m improve.m initial.m interval.m l_shape.m menustr.m monom.m monom_c.m newton_f.m picture.m plot_ext.m q_newton.m recangle.m remez.m sector.m set_colm.m set_extr.m set_para.m sign_spe.m simplex.m stopiter.m stopmenu.m two_circ.m ----------------------------------------------------------- title P19253 path: /netlib/a/datred/ ----------------------------------------------------------- README curve.f doc.ps p19119.f p19120.f p19121.f p19122.f p19123.f p19124.f p19125.f p19126.f p19132.f p19133.f p19134.f p19135.f p19136.f p19154.f p19155.f p19156.f p19191.f p19192.f p19193.f p19194.f p19215.f p19216.f p19225.f p19226.f p19227.f p19228.f p19250.f p19251.f p19252.f p19253.f p19254.f p19255.f p19256.f p19257.f p19260.f p19261.f p19262.f p19263.f p19747.f p19838.f p19839.f p19err.f surf.f ----------------------------------------------------------- for smoothing of multivariate scattered data path: /netlib/a/dloess/ ----------------------------------------------------------- README S.h air.c changes depend.ps ethanol.c galaxy.c gas.c loess.c loess.h loess.m loessc.c loessf.f loessf.m madeup.c makefile misc.c predict.c predict.m struct.m supp.f ----------------------------------------------------------- for Fortran-only, limited version of a/dloess path: /netlib/a/loess/ ----------------------------------------------------------- README bbox.f changes cpvert.f depend.ps descend.f ehg106.f ehg127.f ehg131.f ehg133.f ehg140.f ehg141.f ehg167.f ehg168.f ehg169.f ehg170.f ehg176.f ehg182.f ehg191.f ehg196.f ehg197.f eval.f f77.f getxy.f internal l2fit.f l2tr.f lofort.f lohead.f loread.f losave.f lowesa.f lowesb.f lowesc.f lowesd.f lowese.f lowesf.f lowesl.f lowesp.f lowesw.f rbuild.f sample.f sample.in spread.f vleaf.f ----------------------------------------------------------- for normal, chi-square, and F distributions path: /netlib/a/perlman/ ----------------------------------------------------------- chisq.c f.c z.c ----------------------------------------------------------- for decompose time series into trend + seasonal + path: /netlib/a/stl/ ----------------------------------------------------------- Makefile co2 sample.f stl.3 stl.doc stl.f stl.int stl.r stlez.3 stlez.doc ----------------------------------------------------------- for netlib access tools, such as unshar path: /netlib/access/ ----------------------------------------------------------- unshar.c for unpacking shell archives from netlib by Eric Grosse stree/ for C source for Unix programs that collapse (restore) file trees into (from) a single file -- ASCII if the file trees are ASCII, with times, links, and execute permissions preserved. by Eric Grosse and David Gay # (ehg 1995: shar or tar are now preferred, but we keep this for historical reasons, in case backup files need unarchiving.) ----------------------------------------------------------- for C source for Unix programs that collapse path: /netlib/access/stree/ ----------------------------------------------------------- ftw.body ftw.c ftw.h getpats.c makefile match.c matchtst.c ok.c patlist.h prune.c stree.1 stree.c ustree.c ----------------------------------------------------------- for selected material from Advances in Computational path: /netlib/aicm/ ----------------------------------------------------------- smmp/ for sparse matrix multiply, transpose, format conversion by Bank and Douglas ref Advances in Computational Mathematics, 1 (1993) lang Fortran, PostScript sl11f.f for eigenvalue problems for Hamiltonian systems by Marco Marletta ref Advances in Computational Mathematics, 2 (1994) 155-184 sl11f.tex for documentation on sl11f.f sl12f.f for eigenvalue problems for Hamiltonian systems by Marco Marletta ref Advances in Computational Mathematics, 2 (1994) 155-184 sl12f.tex for documentation on sl12f.f ----------------------------------------------------------- for sparse matrix multiply, transpose, format path: /netlib/aicm/smmp/ ----------------------------------------------------------- aicm.tex doc.txt smmp.f ----------------------------------------------------------- for programs collected from Alliant users path: /netlib/alliant/ ----------------------------------------------------------- ansitapes benchmark/ for Contains Alliant specific standard benchmarks. by David Krowitz 11/17/86 mit-erl!mit-kermit!krowitz@eddie.mit.edu cholesky ibss/ llt new.lu qr v2d for V2d is a demo program originally written by Jim Rees to show how an Apollo network could get transparent file access to any BSD 4.2 system running TCP/IP. sendrec for package which converts Apollo binary data file (REC file types) to Alliant binary format data files which can be read with an unformatted Fortran READ statement on the Alliant and vice-versa (ie. it will convert Alliant format files for reading on an Apollo). shar for does the same function as your BUNDLE shell script, but is more extensive. It adds in some error checking and can handle packing entire directories into an archive file for mailing out over the network. This file was created by the command 'shar shar.dir'. mm/ for Simple matrix-matrix multiply that runs fast on the Alliant. by Jack Dongarra and Dan Sorensen, 1/26/87. lu/ for LU decomposition with partial pivoting designed to run fast on the Alliant. by Dan Sorensen, 2/18/87. compress for a utility which can save a considerable amount of disk space. by David Krowitz, MIT 2/11/87 vtu for This program reads the VAX/VMS DCL command procedure and converts the DCL commands to the equivalent C Shell Script commands that run under the ALLIANT CONCENTRIX operating system which is a Berkeley Unix 4.2 system. by Glen D. West, May 23, 1987 libcray/ for This shar file contains the source code (and test routines) for the Cray Compatibility Library (libCRAY.a). libCRAY.a is a set of routines for Concentrix V3.0 that give the same multiprocessing capability for fortran and C programs on the Alliant FX/8 as the Cray Research multiprocessing library (eg, tskstart, lockon and evpost) on the Cray X-MP. by Mark Seager, Oct 8, 1987 makemake for A utility to generate automatically the makefile needed to build the executable image of a fortran application program to be run on an ALLIANT computer. by Dick Hessel, Oct 16, 1987 quad/ for A subset of the quadpack routines optimized for the alliant. To get the index use "send index from alliant/quad". The complete non-Alliant versions are available via "send index from quadpack" by Dick Hessel, Oct 16, 1987 ode/ for A subset of the odepack routines optimized for the alliant. To get the index use "send index from alliant/ode". The complete non-Alliant versions are available via "send index from odepack" by Dick Hessel, Oct 16, 1987 screen for is a virtual terminal manager for people with regular terminals (folks too poor to buy Sun's for every programmer). It lets you have multiple independant sessions, each on it's own full size screen. It's very useful, seemingly bug free, and we use it here quite a lot. by Patrick Wolfe Nov 1987 vgrindefs for additions for Alliant fortran Appending this to your /usr/lib/vgrindefs file allows you to use "vgrind -lf" on your *.f files. Nothing fancy. by bob@uhmanoa.ics.hawaii.edu Wed Apr 20 18:06:01 1988 vmstapes for Here is a program for reading VMS backup tapes on BSD4.2 systems which I got from the comp.sources archive on uunet.uu.net. For some reason people keep sending us data on VMS backup tapes as a "standard" distribution method! by David Krowitz krowitz@richter.mit.edu (18.83.0.109) ----------------------------------------------------------- for Contains Alliant specific standard benchmarks. path: /netlib/alliant/benchmark/ ----------------------------------------------------------- 1 10 11 12 13 14 15 16 17 18 19 2 3 4 5 6 7 8 9 ----------------------------------------------------------- path: /netlib/alliant/ibss/ ----------------------------------------------------------- f1 f2 f3 f4 f5 ----------------------------------------------------------- for This shar file contains the source code (and path: /netlib/alliant/libcray/ ----------------------------------------------------------- README barrier.c bars.f c_logs.c c_tskcomend.h events.f lockoff.s lockon.s locks.f logs.f makefile man/ tasks.f tests/ tskcombgn.h tskcomend.h ----------------------------------------------------------- path: /netlib/alliant/libcray/man/ ----------------------------------------------------------- barasgn.man barrel.man barsync.man evasgn.man evclear.man evpost.man evrel.man evtest.man evwait.man lgclose.man lgdsable.man lgenable.man lgentry.man lgoff.man lgon.man lgopen.man lockasgn.man lockoff.man lockon.man lockrel.man locktest.man tskstart.man tsktest.man tsktune.man tskvalue.man tskwait.man ----------------------------------------------------------- path: /netlib/alliant/libcray/tests/ ----------------------------------------------------------- cltest.f frkcom.f frkcom.h frktest.f iotest.f makefile matcom.f matcom.h matmult.f runtests.sh vecadd.f vecadd.h vecaddcom.f veccom.f vector.f vector.h wa.c ----------------------------------------------------------- for LU decomposition with partial pivoting designed path: /netlib/alliant/lu/ ----------------------------------------------------------- ludpiv.f lufac.f makefile matvec8.s mmul7.s prepare.f reduce.f second2.f smxpyp8.f ----------------------------------------------------------- for Simple matrix-matrix multiply that runs fast on path: /netlib/alliant/mm/ ----------------------------------------------------------- check.f dgemm.f dgemv.f lsame.f main.f makefile matgen.f mvmul.s xerbla.f zero.f ----------------------------------------------------------- for A subset of the odepack routines optimized for path: /netlib/alliant/ode/ ----------------------------------------------------------- demo/ doc prog/ readme ----------------------------------------------------------- path: /netlib/alliant/ode/demo/ ----------------------------------------------------------- # Index for alliant/ode/demo ex2lsode.f exlsoda.f exlsodar.f exlsode.f exlsodes.f exlsodi.f exlsoibt.f make.lsoda make.lsodar make.lsode make.lsode2 make.lsodes make.lsodi make.lsoibt test.lsoibt ----------------------------------------------------------- path: /netlib/alliant/ode/prog/ ----------------------------------------------------------- adjlr.f aigbt.f ainvg.f bnorm.f cdrv.f cfode.f cntnzu.f decbt-1.f decbt.f demo.index ewset.f fnorm.f intdy.f iprep.f jgroup.f lsoda.f lsodar.f lsode.f lsodes.f lsodi.f lsoibt.f md.f mdi.f mdm.f mdp.f mdu.f nnfc.f nnsc.f nntc.f nroc.f nsfc.f odrv.f pjibt.f prep.f prepj.f prepji.f prja.f prjs.f rchek.f roots.f slsbt.f slss.f solbt-1.f solbt.f solsy.f sro.f stoda-1.f stoda.f stode-1.f stode-1.s stode.f stodi-1.f stodi.f vmnorm.f vnorx.f xerrwx.f ----------------------------------------------------------- for A subset of the quadpack routines optimized for path: /netlib/alliant/quad/ ----------------------------------------------------------- # Index for alliant/quad makefile.1 # Makefile.1 is the makefile for the program testp.f which tests the subroutines dqk15, dqk21, dqk31, dqk41, dqk51, dqk61 with the CNCALL directive inserted to allow concurrent calls to the external function to be integrated. I used four different functions provided by the subroutines testf1 testf2 testf3 test4 which must be compiled with the recursive option. The functions to be integrated and the corresponding intervals of integration are as follow: -1: sin(x) on [0, 314.14159]; -2: exp(x) on [0, 1]; -3: sqrt (abs (x-.2345)) on [0, 1]; -4: 1+x**2+1/(1+100*x**2) on [-1, 2]. makefile.2 # Makefile.2 makes the executable for the adaptive quadrature. The test program is called dquad.f and uses one the external functions as before. dqag.f dqage.f dqk15.f dqk21.f dqk31.f dqk41.f dqk51.f dqk61.f dqpsrt.f dquad.f fdump.f j4save.f s88fmt.f testf1.f testf2.f testf3.f testf4.f testp.f xerabt.f xerctl.f xerprt.f xerror.f xerrwv.f xersav.f xgetua.f ----------------------------------------------------------- for Bessel functions of complex argument and path: /netlib/amos/ ----------------------------------------------------------- .depend cacai.f cacon.f casyi.f cbinu.f cbknu.f cbuni.f cbunk.f ckscl.f cmlri.f cqcai.f cqcbh.f cqcbi.f cqcbj.f cqcbk.f cqcby.f crati.f cs1s2.f cseri.f cshch.f cuchk.f cunhj.f cuni1.f cuni2.f cunik.f cunk1.f cunk2.f cuoik.f cwrsk.f d1mach.f dependencies diffs disclaimer dsclmr.f errors fdump.f i1mach.f makefile r1mach.f readme for overview of amos cairy.f gams C10d cbesh.f gams C10a4 cbesi.f gams C10b4 cbesj.f gams C10a4 cbesk.f gams C10b4 cbesy.f gams C10a4 cbiry.f gams C10d dgamln.f gams C7a gamln.f gams C7a xerror.f zabs.f zacai.f zacon.f zairy.f gams C10d zasyi.f zbesh.f gams C10a4 zbesi.f gams C10b4 zbesj.f gams C10a4 zbesk.f gams C10b4 zbesy.f gams C10a4 zbinu.f zbiry.f gams C10d zbknu.f zbuni.f zbunk.f zdiv.f zexp.f zkscl.f zlog.f zmlri.f zmlt.f zqcai.f zqcbh.f zqcbi.f zqcbj.f zqcbk.f zqcby.f zrati.f zs1s2.f zseri.f zshch.f zsqrt.f zuchk.f zunhj.f zuni1.f zuni2.f zunik.f zunk1.f zunk2.f zuoik.f zwrsk.f ----------------------------------------------------------- for linear and nonlinear programming. path: /netlib/ampl/ ----------------------------------------------------------- ampl.info for Information about the AMPL book and other AMPL documentation. fixlog for Log of bug fixes and changes since 1 Nov. 1992. models/ for sample models from older papers. solvers/ for solver interface code. ampl.exe for Updated version, compiled by Symantec, of the AMPL.EXE that accompanies the AMPL book, with bug fixes and new flow-of-control constructs. size 253 kB amplexe.info for More details on ampl.exe amd watampl.exe. looping/ for Description and examples of new flow-of-control constructs. watampl.exe for Updated version, compiled by WATCOM, of the AMPL.EXE that accompanies the AMPL book, with bug fixes and new flow-of-control constructs. Requires DOS4GW.EXE. size 282 kB dos4gw.exe for Helper program (DOS4GW.EXE) required by WATAMPL.EXE. readme wemu387.386 ----------------------------------------------------------- for Description and examples of new flow-of-control path: /netlib/ampl/looping/ ----------------------------------------------------------- .depend NEW_CMDS README cut.mod cut.run cutA.dat cutB.dat cutC.dat cutD.dat cutE.dat cutF.dat dependencies multi1.dat multi1.mod multi1.run multi2.dat multi2.mod multi2.run multi3.dat multi3.mod multi3.run new_cmds readme sens.dat sens.mod sens.run stoch.dat stoch.mod stoch.run trnloc1.dat trnloc1d.mod trnloc1d.run trnloc1p.mod trnloc1p.run trnloc2.dat trnloc2a.mod trnloc2a.run trnloc2b.mod trnloc2b.run trnloc2c.mod trnloc2c.run ----------------------------------------------------------- for sample models from older papers. path: /netlib/ampl/models/ ----------------------------------------------------------- # ===== index for ampl/models ===== dist.mod for DIST model from CSTR dist.n for network (nodes and arcs) version of DIST dist03.dat dist08.dat dist13.dat egypt1.dat egypt1.mod for ordered-pair version of CSTR's EGYPT model egypt2.dat egypt2.mod for EGYPT model from CSTR m2a/ lang awk for converting MPS to AMPL data for mps.mod or mps1.mod mod8.dat for Figure 1-4 in CSTR mod8.mod for Figure 1-3 in CSTR oil.dat mps.mod for model for use with m2a and MPS data: short, but may change row order mps1.mod for model for use with m2a and MPS data: preserves row order oil.mod optimal.val for optimal values for some of the models p2gon.mod for Nonlinear model--maximize area of unit N-gon, Prieto version 2 pgon.mod for Prieto version 1 of p2gon.mod prod.mod for PROD model from CSTR prod03.dat prod08.dat prod13.dat score.mod for Appendix B in "Expressing Special Structure..." (TM 11274-910530-06) score1.dat struc.mod for Appendix C in "Expressing Special Structure..." (TM 11274-910530-06) struc1.dat struc6.dat struc8.dat train.n for node-and-arc version of TRAIN -- use with train1.dat train1.dat train1.mod train2.dat train2.mod ----------------------------------------------------------- lang awk path: /netlib/ampl/models/m2a/ ----------------------------------------------------------- m2a ----------------------------------------------------------- for solver interface code. path: /netlib/ampl/solvers/ ----------------------------------------------------------- .depend README arith.h.ibm arith.h0 atof.c b_search.c basename.c bscanf.c conval.c cplex/ for interface to CPLEX (a linear and mixed-integer solver) dependencies derprop.c dtoa.c dvalue.hd dynlink.c edagread.c examples/ for examples to accompany "Hooking Your Solver to AMPL" Postscript for which is netlib/research/nam/93-10.Z by anonymous ftp from netlib.att.com, or "send 93-10 from research/nam" from netlib@research.att.com float.h0 fpecatch.c funcadd.c funcadd.h funcadd0.c g_fmt.c jacdim.c jacdim.h korbx/ for interface to KMP (nee KORBX), a linear solver from AT&T linedagread.c mach.c makefile minos/ for interface to MINOS 5.4 (a linear and nonlinear solver) mip_pri.c mypow.c nlc/ for program "nlc" that converts AMPL .nl files to C or Fortran 77 nlp.h nlp1.h op_type.hd osl/ for interface to OSL (a linear and mixed-integer solver) based on IBM's Optimization Subroutine Library r_op.hd rnd_prod.s rops.c sprintf.c sscanf.c writesol.c xectim.c xsum0.out for checksums objval.c wrtsol_.c r_opn.hd readsol.c qpcheck.c dtoa1.c obj_prec.c readme punknown.c r_qp.hd npsol/ ----------------------------------------------------------- for interface to CPLEX (a linear and mixed-integer path: /netlib/ampl/solvers/cplex/ ----------------------------------------------------------- .depend README.1st README.cplex cplex.c dependencies version.c xsum0.out for checksums makefile ----------------------------------------------------------- for examples to accompany "Hooking Your Solver to path: /netlib/ampl/solvers/examples/ ----------------------------------------------------------- .depend README dependencies dualconv.c fmng1.f fnl21.f getstub.c getstub.h lin1.c lin2.c lin3.c linrc.c makefile mng.c mng1.c nl2.c nl21.c tnmain.c xsum0.out for checksums #### sample input and output files: see README #### diet.amp diet.nl diet.row diet.col dietl1.out dietl2.out dietl3.out dietlrc.out dietd.nl diet.sol dietd.sol dietu.sol ch3.amp ch3.nl ch3mng.out ch3mng.sol ch3nl21.out ch3nl2.out ch3nl2.sol ch3tn.out ch3tn.sol ----------------------------------------------------------- for interface to KMP (nee KORBX), a linear solver path: /netlib/ampl/solvers/korbx/ ----------------------------------------------------------- .depend README.1st README.korbx dependencies korbx.c kversion.c xsum0.out makefile ----------------------------------------------------------- for interface to MINOS 5.4 (a linear and nonlinear path: /netlib/ampl/solvers/minos/ ----------------------------------------------------------- .depend README.1st README.minos dependencies funcon.c m54.c m54ver.c makefile src/ xsum0.out for checksums ----------------------------------------------------------- path: /netlib/ampl/solvers/minos/src/ ----------------------------------------------------------- .depend Malloc.c README.0 dependencies dummyfuncon.c dummyfunobj.c dummymatmod.c makefile minos2.c need_nl.c sprintf.c xectim.c minos4.f ----------------------------------------------------------- for program "nlc" that converts AMPL .nl files to C path: /netlib/ampl/solvers/nlc/ ----------------------------------------------------------- .depend README c_op.hd cops.c dependencies makefile nlc.c nlc.h nlcmisc.c opcode.hd r_ops1.hd #### sample input and output files: see README #### ch3.amp ch3.nl ch3.c ch3.kc ch3.f mngnlc.c nl2nlc.c xsum0.out ch3mng.out ch3nl2.out ----------------------------------------------------------- path: /netlib/ampl/solvers/npsol/ ----------------------------------------------------------- .depend README dependencies makefile npsol.c version.c xsum0.out ----------------------------------------------------------- for interface to OSL (a linear and mixed-integer path: /netlib/ampl/solvers/osl/ ----------------------------------------------------------- .depend README.1st README.osl dependencies ftncls.f ftnopn.f makefile osl.c osl.h version.c xsum0.out for checksums ----------------------------------------------------------- for programs collected from Apollo users. path: /netlib/apollo/ ----------------------------------------------------------- # Index for apollo dm_format hp7475-2 hp7475-3 hp7550-2 hp7550-3 hp7570-2 hp7570-3 hpplot for program which converts Apollo GMR graphics output files into ascii text files of HPGL (Hewlitt Packard Graphics Language) commands which can then be sent to any HP graphics device (the HP7550 plotter in particular). 7550a for pen plotter which runs on the Apollo. Complete instructions on compiling and installing the print-server are included. hpprint index2 qsend for program allows a user at one Apollo workstation to send messages to other users, other nodes, all users, all nodes, their own node (from a background job), and to themselves (if they are logged in on more than one machine). toshiba for print-server for a Toshiba 1351 dot matrix printer running on an Apollo workstation with an RS232 interface. image for Apple Imagewriter dot matrixprinter running on an Apollo workstation with an RS232 interface. rand for random number generators for the Apollos v2d for V2d is a demo program originally written by Jim Rees to show how an Apollo network could get transparent file access to any BSD 4.2 system running TCP/IP. ftp for A set of small programs which will startup the TCP/IP FTP, RIP, and TELNET servers on the Apollos after a suitable delay to allow the TCP/IP server to get initialized. sendrec for package which converts Apollo binary data file (REC file types) to Alliant binary format data files which can be read with an unformatted Fortran READ statement on the Alliant and vice-versa (ie. it will convert Alliant format files for reading on an Apollo). ckmail for checks if new network mail has arrived for you on the Apollo network and will (optionally) pop up a window to notify you about the new mail. shar for does the same function as your BUNDLE shell script, but is more extensive. It adds in some error checking and can handle packing entire directories into an archive file for mailing out over the network (e.g. this file was created by the command 'shar shar.dir >foobar'). batch for allows you to start a background job running on any machine in the network and then log out without killing the job. compress for a utility which can save a considerable amount of disk space. by From: David Krowitz, MIT 2/11/87 v2 for Apollo to BSD 4.2 (Alliant FX/1) transparent file access software. This version works correctly on Apollo workstations running the new SR9.5 release of AEGIS. The version I gave you previously works under SR9.2 -- the new version will not run on SR9.2. Please add this to your software library. by David Krowitz 2/28/87 gone for When the user wants to leave the node unattended, the gone routine borrows the display, puts a message on the screen, and waits for the user to type a password. The user can specify the password and the message font with a configuration file in the user's ~user_data directory. by David Krowitz, MIT 3/21/87 hp7570 for new HP 7570 print server by David Krowitz, MIT 5/16/87 hp7475 for new HP 7475 print server by David Krowitz, MIT 5/16/87 hp7550 for revised HP 7550 print server by David Krowitz, MIT 5/16/87 nec-p9xl for Apollo print server for NEC P9XL Pinwriter by David Krowitz, MIT 7/30/87 remote for is a short file daemon program which periodically checks a directory and executes a shell command for each of the files it finds there before deleting them. kermit for kermit program for the apollo ----------------------------------------------------------- for contains benchmark programs and the table of path: /netlib/benchmark/ ----------------------------------------------------------- 1000 bandcray bandcray.f bell-winner bell1 bell2 benchmark.letter benchmark.tape bnd.f cbenchmark clu.f crayxmp.band crayxmp4 crayxmp42 dhrystone dhrystone-ada dlpsubhalf.f dmr downloadmmmooo error indirect indirect.f indirectd.f karp.challenge linpackc.new linpacks for The LINPACK benchmark program in single precision. linpackd for The LINPACK benchmark program in double precision. 1000s for The LINPACK 1000x1000 benchmark program in single precision. 1000d for The LINPACK 1000x1000 benchmark program in double precision. linpackc for The LINPACK benchmark program done in C. lang C by Bonnie Toy 5/88. livermore # The Livermore loops in double precision. (Fortran) A program used by some to benchmark supercomputers. by Frank McMahaon LLNL 1/26/88 livermores # Same as LIVERMORE only single precision. livermorec # A 'C' version of the Livermore loops program, a program used by some to benchmark supercomputers. by Frank McMahaon LLNL 1/26/88 llt.f lus for The linear equation solver used in the paper by Dongarra and Eisenstat that is based on matrix-vector operations. This is the single precision version. lud for The linear equation solver used in the paper by Dongarra and Eisenstat that is based on matrix-vector operations. This is the double precision version. mail new.perf-upd nhalf nsubhalf.sendtape nsubhalf.tape old.livermore perform.scr performance.ps by J. Dongarra lang PostScript # Performance of Various Computers Using Standard Linear Algebra Software in a Fortran Environment', also known as the Linpack Benchmark Report perf-upd # A log of updates made to the above report. performance.reason sendpaper sendtape slpsubhalf.f sparsed to-get-lp-benchmark to.dgh v.ibm v.ibm2 vector.bit vector1 vector2 vector3 vector4 vector5 vectorold vectors/ for A test suite for vectorizing Fortran compilers. Single precision. # D. Levine, D. Callahan, and J. Dongarra. 1/4/91. vectord/ for A test suite for vectorizing Fortran compilers. Double precision. # D. Levine, D. Callahan, and J. Dongarra. 1/4/91. higbie for a collection of vectorizable loops. # Lee Higbie, 2/13/91. whetstonec for The Whetstone benchmark in C. This program is a translation of the original Algol version in "A Synthetic Benchmark" by H.J. Curnow and B.A. Wichman in Computer Journal, Vol 19 #1, February 1976. whetstones for The Whetstone benchmark in single precision Fortran. whetstoned for The Whetstone benchmark in double precision Fortran. dhry-ada/ for Dhrystone benchmark program in Ada, current version. dhry-c/ for Dhrystone benchmark program in C, current version. dhry-pascal/ for Dhrystone benchmark program in Pascal, current version. karp-challenge for Alan Karp's challenge on parallel vs sequential computing. nbslib for A version of netlib runs at NBS and they distribute benchmark software. bell-award for details of the following prize: Beginning in 1988, two $1000 awards will be given each year for 10 years to the person or team that demonstrates the greatest speedup on a multiple-instruction, multiple-data parallel processor. nas for A benchmark test program has been developed for use by the NAS program at NASA Ames Research Center to aid in the evaluation of supercomputer performance. by David H. Bailey, NASA Ames Research Center, June 24, 1988 nas-doc for tex documentation for NAS parallel/ for loops to test an compilers ability to parallelize by Jack Dongarra Dec 1991. bipopt/ for bipolar operating point benchmark suite by Bob Melville laserprinter.ps for benchmark for postscript laser printers. by Jim Sullivan top500-1993.ps for a list of the top 500 high-performance computer centers as rated by floating point performance in 1993. by Jack Dongarra July 1993. top500.ps for a list of the top 500 high-performance computer centers as rated by floating point performance in November 1994. by Jack Dongarra November 1994. mp-computers.ps for Overview of recent high-performance computers. Machines are ordered by there type. The most important characteristics of the systems and some performance figures for these systems are given. by Aad van der Steen, November 1993. comm/ for Benchmark program to measure bandwidth and latency of message passing systems. MPI and PVM versions included. by Jack Dongarra and Tom Dunigan, May 1995. ----------------------------------------------------------- for bipolar operating point benchmark suite path: /netlib/benchmark/bipopt/ ----------------------------------------------------------- intro.bmrk for Troff(-mm)/Eqn/Pic file; general description, references; cmmode.bmrk for common-mode circuit; Troff/Eqn and PostScript at end! casc.bmrk for Schmitt trigger cascade dcnine.bmrk for circuit from Chua hybr.bmrk for all-NPN voltage reference from Banwell oa741.bmrk for input stage of 741 op-amp vref.bmrk for Brokaw voltage reference ----------------------------------------------------------- for Benchmark program to measure bandwidth and path: /netlib/benchmark/comm/ ----------------------------------------------------------- mpi.c pvm.c script ----------------------------------------------------------- for Dhrystone benchmark program in Ada, current path: /netlib/benchmark/dhry-ada/ ----------------------------------------------------------- d_global.s d_main.b d_pack_1.b d_pack_1.s d_pack_2.b d_pack_2.s dhry_c.dif submit.frm ----------------------------------------------------------- for Dhrystone benchmark program in C, current path: /netlib/benchmark/dhry-c/ ----------------------------------------------------------- RATIONALE README_C VARIATIONS dhry.h dhry_1.c dhry_2.c dhry_c.dif submit.frm ----------------------------------------------------------- for Dhrystone benchmark program in Pascal, current path: /netlib/benchmark/dhry-pascal/ ----------------------------------------------------------- RATIONALE README_P dhry.p-1 dhry.p-2 dhry_c.dif submit.frm ----------------------------------------------------------- for loops to test an compilers ability to path: /netlib/benchmark/parallel/ ----------------------------------------------------------- loops2.f subs.f ----------------------------------------------------------- for A test suite for vectorizing Fortran compilers. path: /netlib/benchmark/vectord/ ----------------------------------------------------------- loopd.f maind.f ----------------------------------------------------------- for A test suite for vectorizing Fortran compilers. path: /netlib/benchmark/vectors/ ----------------------------------------------------------- loops.f mains.f ----------------------------------------------------------- for biharmonic equation in rectangular geometry and path: /netlib/bihar/ ----------------------------------------------------------- .depend Makefile dbihar.f for biharmonic PDE solver in rectangular geometry prec double gams I2b1c dbiplr.f for biharmonic PDE solver in polar coordinates prec double gams I2b1c dbmult.f for biharmonic multiply in rectangular geometry prec double gams I2b4 dbplrm.f for biharmonic multiply in polar coordinates prec double gams I2b4 dependencies disclaimer dlmult.f for Laplace multiply in rectangular geometry prec double gams I2b4 dlplrm.f for Laplace multiply in polar coordinates prec double gams I2b4 sbihar.f for biharmonic PDE solver in rectangular geometry prec single gams I2b1c sbiplr.f for biharmonic PDE solver in polar coordinates prec single gams I2b1c sbmult.f for biharmonic multiply in rectangular geometry prec single gams I2b4 sbplrm.f for biharmonic multiply in polar coordinates prec single gams I2b4 slmult.f for Laplace multiply in rectangular geometry prec single gams I2b4 slplrm.f for Laplace multiply in polar coordinates prec single gams I2b4 fft.doc for documentation of FFT routines used in the bihar routines prec double see fftpack drffti.f for initialize drfftf and drfftb prec double see fftpack drfftf.f for forward transform of a real periodic sequence prec double see fftpack drfftb.f for backward transform of a real coefficient array prec double see fftpack defftf.f for a simplified real periodic forward transform prec double see fftpack defftb.f for a simplified real periodic backward transform prec double see fftpack dsinti.f for initialize dsint prec double see fftpack dsint.f for sine transform of a real odd sequence prec double see fftpack dcosti.f for initialize dcost prec double see fftpack dcost.f for cosine transform of a real even sequence prec double see fftpack dsinqi.f for initialize dsinqf and dsinqb prec double see fftpack dsinqf.f for forward sine transform with odd wave numbers prec double see fftpack dsinqb.f for unnormalized inverse of dsinqf prec double see fftpack dcosqi.f for initialize dcosqf and dcosqb prec double see fftpack dcosqf.f for forward cosine transform with odd wave numbers prec double see fftpack dcosqb.f for unnormalized inverse of dcosqf prec double see fftpack dcffti.f for initialize dcfftf and dcfftb prec double see fftpack dcfftf.f for forward transform of a complex periodic sequence prec double see fftpack dcfftb.f for unnormalized inverse of dcfftf prec double see fftpack dbipl.f dbisld.f dbislf.f dcftb1.f dcftf1.f dcfti1.f dcmult.f dconju.f dcsqb1.f dcsqf1.f defft1.f deffti.f dftrnx.f dftrny.f dpssb.f dhzeri.f dhzero.f dmatge.f dpentf.f dpmult.f dpplrm.f dpreco.f dpssb2.f dpssb3.f dpssb4.f dpssb5.f dpssf.f dpssf2.f dpssf3.f dpssf4.f dpssf5.f dradb2.f dradb3.f dradb4.f dradb5.f dradbg.f dradf2.f dradf3.f dradf4.f dradf5.f dradfg.f drftb1.f drftf1.f drfti1.f dstart.f dtrigi.f dupdat.f pois.f sbipl.f sbisld.f sbislf.f scfftb.f scfftf.f scffti.f scftb1.f scftf1.f scfti1.f scmult.f sconju.f scosqb.f scosqf.f scosqi.f scost.f scosti.f scsqb1.f scsqf1.f sefft1.f sefftb.f sefftf.f seffti.f sftrnx.f sftrny.f shzeri.f shzero.f smatge.f spentf.f spmult.f spplrm.f spreco.f spssb.f spssb2.f spssb3.f spssb4.f spssb5.f spssf.f spssf2.f spssf3.f spssf4.f spssf5.f sradb2.f sradb3.f sradb4.f sradb5.f sradbg.f sradf2.f sradf3.f sradf4.f sradf5.f sradfg.f srfftb.f srfftf.f srffti.f srftb1.f srftf1.f srfti1.f ssinqb.f ssinqf.f ssinqi.f ssint.f ssinti.f sstart.f strigi.f supdat.f ----------------------------------------------------------- for Basic Linear Algebra Communication Subprograms path: /netlib/blacs/ ----------------------------------------------------------- # BLACS directory # ===== # This directory contains machine-specific versions of the # BLACS ( Basic Linear Algebra Communication Subprograms ). The # platforms currently supported are: Intel series (NX), PVM, # SP series (MPL), Thinking Machines CM-5 (CMMD). # Several vendors are producing optimized versions of the BLACS # ( e.g. Cray, IBM, and Meiko). # # Alpha test release of MPI BLACS is now available! (Oct, 1995) # (See details below and the errata.mpiblacs file for a list of # platforms where the software has been tested, and any # difficulties that were encountered.) # # For further information, please refer to the URL: # http://www.netlib.org/blacs/Blacs.html # ############ # # SOFTWARE # # ############ cmmdblacs/ for TMC CM-5 version of the BLACS, written on top of CMMD. UPDATED: February 28, 1995 size 640699 bytes mpiblacs/ for MPI version of the BLACS (!!ALPHA TEST RELEASE!!) UPDATED: October 5, 1995 size 879229 bytes mplblacs/ for IBM SP series version of the BLACS, written on top of MPL. UPDATED: February 28, 1995 size 656646 bytes nxblacs/ for Intel series version of the BLACS, written on top of NX. UPDATED: February 28, 1995 size 564689 bytes pvmblacs/ for PVM version of the BLACS. UPDATED: February 28, 1995 size 621387 bytes blacstester/ for Test Suite for the BLACS. UPDATED: February 28, 1995 size 974678 bytes mpiblacstester/ for Test Suite for the MPI BLACS. UPDATED: October 5, 1995 size 1100157 bytes # ################# # # DOCUMENTATION # # ################# errata.mpiblacs for ERRATA file for the MPIBLACS. Specifically lists all platforms for which they have been tested, and any difficulties that were encountered. size 8281 bytes blacs_install.ps for DRAFT of "Installing and Testing the BLACS" (VERY IMPORTANT FOR MPIBLACS INSTALLATION!!) UPDATED: October 3, 1995 size 168390 bytes mpiblacs_issues.ps for DRAFT of "Outstanding Issues in the MPIBLACS" UPDATED: October 3, 1995 size 110944 bytes mpi_prop.ps for DRAFT of "Some Plebian Extensions to MPI" UPDATED: October 3, 1995 size 97398 bytes btest_ug.ps for Installation Guide for the BLACS and its Test Suite. UPDATED: February 28, 1995 size 128004 bytes lawn94.ps for Draft of "A User's Guide to the BLACS v1.0". UPDATED: June 7, 1995 size 409788 bytes cblacsqref.ps for Quick Reference Guide to the C interface for the BLACS. UPDATED: February 28, 1995 size 69240 bytes f77blacsqref.ps for Quick Reference Guide to the Fortran 77 interface for the BLACS. UPDATED: February 28, 1995 size 67842 bytes ----------------------------------------------------------- for Test Suite for the BLACS. UPDATED: February path: /netlib/blacs/blacstester/ ----------------------------------------------------------- BLACS/ ----------------------------------------------------------- path: /netlib/blacs/blacstester/BLACS/ ----------------------------------------------------------- BMAKES/ Bmake.inc Makefile TESTING/ ----------------------------------------------------------- path: /netlib/blacs/blacstester/BLACS/BMAKES/ ----------------------------------------------------------- Bmake.ALPHA Bmake.CM5 Bmake.HPPA Bmake.I860 Bmake.LINUX Bmake.PMAX Bmake.RS6K Bmake.SGI Bmake.SP1 Bmake.SP2 Bmake.SUN4 ----------------------------------------------------------- path: /netlib/blacs/blacstester/BLACS/TESTING/ ----------------------------------------------------------- Cbt.c Cbt.h EXE/ Makefile README blacstest.f btprim_CMMD.f btprim_MPL.f btprim_NX.f btprim_PVM.f tools.f ----------------------------------------------------------- path: /netlib/blacs/blacstester/BLACS/TESTING/EXE/ ----------------------------------------------------------- bsbr.dat bt.dat comb.dat sdrv.dat ----------------------------------------------------------- for TMC CM-5 version of the BLACS, written on top of path: /netlib/blacs/cmmdblacs/ ----------------------------------------------------------- BLACS/ ----------------------------------------------------------- path: /netlib/blacs/cmmdblacs/BLACS/ ----------------------------------------------------------- BMAKES/ Bmake.inc LIB/ Makefile SRC/ ----------------------------------------------------------- path: /netlib/blacs/cmmdblacs/BLACS/BMAKES/ ----------------------------------------------------------- Bmake.ALPHA Bmake.CM5 Bmake.HPPA Bmake.I860 Bmake.LINUX Bmake.PMAX Bmake.RS6K Bmake.SGI Bmake.SP1 Bmake.SP2 Bmake.SUN4 ----------------------------------------------------------- path: /netlib/blacs/cmmdblacs/BLACS/LIB/ ----------------------------------------------------------- LIB.log ----------------------------------------------------------- path: /netlib/blacs/cmmdblacs/BLACS/SRC/ ----------------------------------------------------------- CMMD/ README ----------------------------------------------------------- path: /netlib/blacs/cmmdblacs/BLACS/SRC/CMMD/ ----------------------------------------------------------- Bconfig.h Bdef.h INTERNAL/ Makefile blacs_abort_.c blacs_barrier_.c blacs_exit_.c blacs_freebuff_.c blacs_get_.c blacs_gridexit_.c blacs_gridinfo_.c blacs_gridinit_.c blacs_gridmap_.c blacs_pcoord_.c blacs_pinfo_.c blacs_pnum_.c blacs_set_.c blacs_setup_.c cgamn2d_.c cgamx2d_.c cgebr2d_.c cgebs2d_.c cgerv2d_.c cgesd2d_.c cgsum2d_.c ctrbr2d_.c ctrbs2d_.c ctrrv2d_.c ctrsd2d_.c dcputime00_.c dgamn2d_.c dgamx2d_.c dgebr2d_.c dgebs2d_.c dgerv2d_.c dgesd2d_.c dgsum2d_.c dtrbr2d_.c dtrbs2d_.c dtrrv2d_.c dtrsd2d_.c dwalltime00_.c igamn2d_.c igamx2d_.c igebr2d_.c igebs2d_.c igerv2d_.c igesd2d_.c igsum2d_.c itrbr2d_.c itrbs2d_.c itrrv2d_.c itrsd2d_.c kbrid_.c kbsid_.c krecvid_.c ksendid_.c sgamn2d_.c sgamx2d_.c sgebr2d_.c sgebs2d_.c sgerv2d_.c sgesd2d_.c sgsum2d_.c strbr2d_.c strbs2d_.c strrv2d_.c strsd2d_.c zgamn2d_.c zgamx2d_.c zgebr2d_.c zgebs2d_.c zgerv2d_.c zgesd2d_.c zgsum2d_.c ztrbr2d_.c ztrbs2d_.c ztrrv2d_.c ztrsd2d_.c ----------------------------------------------------------- path: /netlib/blacs/cmmdblacs/BLACS/SRC/CMMD/INTERNAL/ ----------------------------------------------------------- Ahyp_br.c Ahyp_bs.c Aidring_br.c Aidring_bs.c Ampath_br.c Ampath_bs.c Arecv2d00.c Arecv2dID.c ArgCheck00.c Asend2d00.c Asend2dID.c Asring_br.c Asring_bs.c Atree_br.c Atree_bs.c BE_comb.c Bconfig.h Bdef.h BlacsAbort00.c BlacsErr.c BlacsWarn.c BuffIsFree.c GlobalVars.c Shyp_br.c Shyp_bs.c Sidring_br.c Sidring_bs.c Smpath_br.c Smpath_bs.c Srecv2d00.c Srecv2dID.c Ssend2d00.c Ssend2dID.c Ssring_br.c Ssring_bs.c Stree_br.c Stree_bs.c TransDist.c UpdateBuffs.c cvvamn.c cvvamn2.c cvvamx.c cvvamx2.c cvvsum.c dvvamn.c dvvamn2.c dvvamx.c dvvamx2.c dvvsum.c emergency_buff.c getbuff.c ivvamn.c ivvamn2.c ivvamx.c ivvamx2.c ivvsum.c mvcopy4.c mvcopy8.c svvamn.c svvamn2.c svvamx.c svvamx2.c svvsum.c tree_comb.c tvcopy16.c tvcopy4.c tvcopy8.c vmcopy4.c vmcopy8.c vtcopy16.c vtcopy4.c vtcopy8.c zvvamn.c zvvamn2.c zvvamx.c zvvamx2.c zvvsum.c ----------------------------------------------------------- for MPI version of the BLACS (!!ALPHA TEST path: /netlib/blacs/mpiblacs/ ----------------------------------------------------------- BLACS/ ----------------------------------------------------------- path: /netlib/blacs/mpiblacs/BLACS/ ----------------------------------------------------------- BMAKES/ INSTALL/ LIB/ Makefile README SRC/ ----------------------------------------------------------- path: /netlib/blacs/mpiblacs/BLACS/BMAKES/ ----------------------------------------------------------- Bmake.CMMD-CM5 Bmake.MPI-ALPHA Bmake.MPI-HPPA Bmake.MPI-I860 Bmake.MPI-LINUX Bmake.MPI-RS6K Bmake.MPI-SGI Bmake.MPI-SP2 Bmake.MPI-SUN4 Bmake.MPL-SP1 Bmake.MPL-SP2 Bmake.NX-I860 Bmake.PVM-ALPHA Bmake.PVM-HPPA Bmake.PVM-LINUX Bmake.PVM-PMAX Bmake.PVM-RS6K Bmake.PVM-SGI Bmake.PVM-SUN4 ----------------------------------------------------------- path: /netlib/blacs/mpiblacs/BLACS/INSTALL/ ----------------------------------------------------------- Cintface.c EXE/ Fintface.f Makefile README size.c syserrors.c transcomm.c ----------------------------------------------------------- path: /netlib/blacs/mpiblacs/BLACS/INSTALL/EXE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/blacs/mpiblacs/BLACS/LIB/ ----------------------------------------------------------- LIB.log ----------------------------------------------------------- path: /netlib/blacs/mpiblacs/BLACS/SRC/ ----------------------------------------------------------- MPI/ README ----------------------------------------------------------- path: /netlib/blacs/mpiblacs/BLACS/SRC/MPI/ ----------------------------------------------------------- Bconfig.h Bdef.h INTERNAL/ Makefile blacs2sys_handle_.c blacs_abort_.c blacs_barrier_.c blacs_exit_.c blacs_freebuff_.c blacs_get_.c blacs_gridexit_.c blacs_gridinfo_.c blacs_gridinit_.c blacs_gridmap_.c blacs_pcoord_.c blacs_pinfo_.c blacs_pnum_.c blacs_set_.c blacs_setup_.c cgamn2d_.c cgamx2d_.c cgebr2d_.c cgebs2d_.c cgerv2d_.c cgesd2d_.c cgsum2d_.c ctrbr2d_.c ctrbs2d_.c ctrrv2d_.c ctrsd2d_.c dcputime00_.c dgamn2d_.c dgamx2d_.c dgebr2d_.c dgebs2d_.c dgerv2d_.c dgesd2d_.c dgsum2d_.c dtrbr2d_.c dtrbs2d_.c dtrrv2d_.c dtrsd2d_.c dwalltime00_.c free_blacs_system_handle_.c igamn2d_.c igamx2d_.c igebr2d_.c igebs2d_.c igerv2d_.c igesd2d_.c igsum2d_.c itrbr2d_.c itrbs2d_.c itrrv2d_.c itrsd2d_.c kbrid_.c kbsid_.c krecvid_.c ksendid_.c sgamn2d_.c sgamx2d_.c sgebr2d_.c sgebs2d_.c sgerv2d_.c sgesd2d_.c sgsum2d_.c strbr2d_.c strbs2d_.c strrv2d_.c strsd2d_.c sys2blacs_handle_.c zgamn2d_.c zgamx2d_.c zgebr2d_.c zgebs2d_.c zgerv2d_.c zgesd2d_.c zgsum2d_.c ztrbr2d_.c ztrbs2d_.c ztrrv2d_.c ztrsd2d_.c ----------------------------------------------------------- path: /netlib/blacs/mpiblacs/BLACS/SRC/MPI/INTERNAL/ ----------------------------------------------------------- BI_Arecv.c BI_ArgCheck.c BI_Asend.c BI_BeComb.c BI_BlacsAbort.c BI_BlacsErr.c BI_BlacsWarn.c BI_BuffIsFree.c BI_ContxtNum.c BI_EmergencyBuff.c BI_GetBuff.c BI_GetMpiGeType.c BI_GetMpiTrType.c BI_GlobalVars.c BI_HypBR.c BI_HypBS.c BI_IdringBR.c BI_IdringBS.c BI_MPI_C_to_f77_trans_comm.c BI_MPI_F77_to_c_trans_comm.c BI_MpathBR.c BI_MpathBS.c BI_MringComb.c BI_Pack.c BI_Rsend.c BI_Srecv.c BI_SringBR.c BI_SringBS.c BI_Ssend.c BI_TransDist.c BI_TransUserComm.c BI_TreeBR.c BI_TreeBS.c BI_TreeComb.c BI_Unpack.c BI_UpdateBuffs.c BI_cMPI_amn.c BI_cMPI_amn2.c BI_cMPI_amx.c BI_cMPI_amx2.c BI_cMPI_sum.c BI_cvvamn.c BI_cvvamn2.c BI_cvvamx.c BI_cvvamx2.c BI_cvvsum.c BI_dMPI_amn.c BI_dMPI_amn2.c BI_dMPI_amx.c BI_dMPI_amx2.c BI_dmvcopy.c BI_dvmcopy.c BI_dvvamn.c BI_dvvamn2.c BI_dvvamx.c BI_dvvamx2.c BI_dvvsum.c BI_iMPI_amn.c BI_iMPI_amn2.c BI_iMPI_amx.c BI_iMPI_amx2.c BI_imvcopy.c BI_ivmcopy.c BI_ivvamn.c BI_ivvamn2.c BI_ivvamx.c BI_ivvamx2.c BI_ivvsum.c BI_sMPI_amn.c BI_sMPI_amn2.c BI_sMPI_amx.c BI_sMPI_amx2.c BI_smvcopy.c BI_svmcopy.c BI_svvamn.c BI_svvamn2.c BI_svvamx.c BI_svvamx2.c BI_svvsum.c BI_zMPI_amn.c BI_zMPI_amn2.c BI_zMPI_amx.c BI_zMPI_amx2.c BI_zMPI_sum.c BI_zvvamn.c BI_zvvamn2.c BI_zvvamx.c BI_zvvamx2.c BI_zvvsum.c Bconfig.h Bdef.h bi_f77_get_constants.f bi_f77_mpi_attr_get.f bi_f77_mpi_initialized.f bi_f77_mpi_op_create.f bi_f77_mpi_test.f bi_f77_mpi_testall.f ----------------------------------------------------------- for Test Suite for the MPI BLACS. UPDATED: October path: /netlib/blacs/mpiblacstester/ ----------------------------------------------------------- BLACS/ ----------------------------------------------------------- path: /netlib/blacs/mpiblacstester/BLACS/ ----------------------------------------------------------- BMAKES/ INSTALL/ Makefile README TESTING/ ----------------------------------------------------------- path: /netlib/blacs/mpiblacstester/BLACS/BMAKES/ ----------------------------------------------------------- Bmake.CMMD-CM5 Bmake.MPI-ALPHA Bmake.MPI-HPPA Bmake.MPI-I860 Bmake.MPI-LINUX Bmake.MPI-RS6K Bmake.MPI-SGI Bmake.MPI-SP2 Bmake.MPI-SUN4 Bmake.MPL-SP1 Bmake.MPL-SP2 Bmake.NX-I860 Bmake.PVM-ALPHA Bmake.PVM-HPPA Bmake.PVM-LINUX Bmake.PVM-PMAX Bmake.PVM-RS6K Bmake.PVM-SGI Bmake.PVM-SUN4 ----------------------------------------------------------- path: /netlib/blacs/mpiblacstester/BLACS/INSTALL/ ----------------------------------------------------------- Cintface.c EXE/ Fintface.f Makefile README size.c syserrors.c transcomm.c ----------------------------------------------------------- path: /netlib/blacs/mpiblacstester/BLACS/INSTALL/EXE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/blacs/mpiblacstester/BLACS/TESTING/ ----------------------------------------------------------- Cbt.c Cbt.h EXE/ Makefile README blacstest.f bsbr.dat bt.dat btprim_CMMD.f btprim_MPI.f btprim_MPL.f btprim_NX.f btprim_PVM.f comb.dat sdrv.dat tools.f ----------------------------------------------------------- path: /netlib/blacs/mpiblacstester/BLACS/TESTING/EXE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- for IBM SP series version of the BLACS, written on path: /netlib/blacs/mplblacs/ ----------------------------------------------------------- BLACS/ ----------------------------------------------------------- path: /netlib/blacs/mplblacs/BLACS/ ----------------------------------------------------------- BMAKES/ Bmake.inc LIB/ Makefile SRC/ ----------------------------------------------------------- path: /netlib/blacs/mplblacs/BLACS/BMAKES/ ----------------------------------------------------------- Bmake.ALPHA Bmake.CM5 Bmake.HPPA Bmake.I860 Bmake.LINUX Bmake.PMAX Bmake.RS6K Bmake.SGI Bmake.SP1 Bmake.SP2 Bmake.SUN4 ----------------------------------------------------------- path: /netlib/blacs/mplblacs/BLACS/LIB/ ----------------------------------------------------------- LIB.log ----------------------------------------------------------- path: /netlib/blacs/mplblacs/BLACS/SRC/ ----------------------------------------------------------- MPL/ README ----------------------------------------------------------- path: /netlib/blacs/mplblacs/BLACS/SRC/MPL/ ----------------------------------------------------------- Bconfig.h Bdef.h INTERNAL/ Makefile blacs_abort_.c blacs_barrier_.c blacs_exit_.c blacs_freebuff_.c blacs_get_.c blacs_gridexit_.c blacs_gridinfo_.c blacs_gridinit_.c blacs_gridmap_.c blacs_pcoord_.c blacs_pinfo_.c blacs_pnum_.c blacs_set_.c blacs_setup_.c cgamn2d_.c cgamx2d_.c cgebr2d_.c cgebs2d_.c cgerv2d_.c cgesd2d_.c cgsum2d_.c ctrbr2d_.c ctrbs2d_.c ctrrv2d_.c ctrsd2d_.c dcputime00_.c dgamn2d_.c dgamx2d_.c dgebr2d_.c dgebs2d_.c dgerv2d_.c dgesd2d_.c dgsum2d_.c dtrbr2d_.c dtrbs2d_.c dtrrv2d_.c dtrsd2d_.c dwalltime00_.c igamn2d_.c igamx2d_.c igebr2d_.c igebs2d_.c igerv2d_.c igesd2d_.c igsum2d_.c itrbr2d_.c itrbs2d_.c itrrv2d_.c itrsd2d_.c kbrid_.c kbsid_.c krecvid_.c ksendid_.c sgamn2d_.c sgamx2d_.c sgebr2d_.c sgebs2d_.c sgerv2d_.c sgesd2d_.c sgsum2d_.c strbr2d_.c strbs2d_.c strrv2d_.c strsd2d_.c zgamn2d_.c zgamx2d_.c zgebr2d_.c zgebs2d_.c zgerv2d_.c zgesd2d_.c zgsum2d_.c ztrbr2d_.c ztrbs2d_.c ztrrv2d_.c ztrsd2d_.c ----------------------------------------------------------- path: /netlib/blacs/mplblacs/BLACS/SRC/MPL/INTERNAL/ ----------------------------------------------------------- Ahyp_br.c Ahyp_bs.c Aidring_br.c Aidring_bs.c Ampath_br.c Ampath_bs.c Arecv2d00.c Arecv2dID.c ArgCheck00.c Asend2d00.c Asend2dID.c Asring_br.c Asring_bs.c Atree_br.c Atree_bs.c BE_comb.c Bconfig.h Bdef.h BlacsAbort00.c BlacsErr.c BlacsWarn.c BuffIsFree.c ContxtNum.c GlobalVars.c Shyp_br.c Shyp_bs.c Sidring_br.c Sidring_bs.c Smpath_br.c Smpath_bs.c Srecv2d00.c Srecv2dID.c Ssend2d00.c Ssend2dID.c Ssring_br.c Ssring_bs.c Stree_br.c Stree_bs.c TransDist.c UpdateBuffs.c cvvamn.c cvvamn2.c cvvamx.c cvvamx2.c cvvsum.c dvvamn.c dvvamn2.c dvvamx.c dvvamx2.c dvvsum.c emergency_buff.c getbuff.c ivvamn.c ivvamn2.c ivvamx.c ivvamx2.c ivvsum.c mvcopy4.c mvcopy8.c svvamn.c svvamn2.c svvamx.c svvamx2.c svvsum.c tree_comb.c tvcopy16.c tvcopy4.c tvcopy8.c vmcopy4.c vmcopy8.c vtcopy16.c vtcopy4.c vtcopy8.c zvvamn.c zvvamn2.c zvvamx.c zvvamx2.c zvvsum.c ----------------------------------------------------------- for Intel series version of the BLACS, written on path: /netlib/blacs/nxblacs/ ----------------------------------------------------------- BLACS/ ----------------------------------------------------------- path: /netlib/blacs/nxblacs/BLACS/ ----------------------------------------------------------- BMAKES/ Bmake.inc LIB/ Makefile SRC/ ----------------------------------------------------------- path: /netlib/blacs/nxblacs/BLACS/BMAKES/ ----------------------------------------------------------- Bmake.ALPHA Bmake.CM5 Bmake.HPPA Bmake.I860 Bmake.LINUX Bmake.PMAX Bmake.RS6K Bmake.SGI Bmake.SP1 Bmake.SP2 Bmake.SUN4 ----------------------------------------------------------- path: /netlib/blacs/nxblacs/BLACS/LIB/ ----------------------------------------------------------- LIB.log ----------------------------------------------------------- path: /netlib/blacs/nxblacs/BLACS/SRC/ ----------------------------------------------------------- NX/ README ----------------------------------------------------------- path: /netlib/blacs/nxblacs/BLACS/SRC/NX/ ----------------------------------------------------------- Bconfig.h Bdef.h INTERNAL/ Makefile blacs_abort_.c blacs_barrier_.c blacs_exit_.c blacs_freebuff_.c blacs_get_.c blacs_gridexit_.c blacs_gridinfo_.c blacs_gridinit_.c blacs_gridmap_.c blacs_pcoord_.c blacs_pinfo_.c blacs_pnum_.c blacs_set_.c blacs_setup_.c cgamn2d_.c cgamx2d_.c cgebr2d_.c cgebs2d_.c cgerv2d_.c cgesd2d_.c cgsum2d_.c ctrbr2d_.c ctrbs2d_.c ctrrv2d_.c ctrsd2d_.c dcputime00_.c dgamn2d_.c dgamx2d_.c dgebr2d_.c dgebs2d_.c dgerv2d_.c dgesd2d_.c dgsum2d_.c dtrbr2d_.c dtrbs2d_.c dtrrv2d_.c dtrsd2d_.c dwalltime00_.c igamn2d_.c igamx2d_.c igebr2d_.c igebs2d_.c igerv2d_.c igesd2d_.c igsum2d_.c itrbr2d_.c itrbs2d_.c itrrv2d_.c itrsd2d_.c kbrid_.c kbsid_.c krecvid_.c ksendid_.c sgamn2d_.c sgamx2d_.c sgebr2d_.c sgebs2d_.c sgerv2d_.c sgesd2d_.c sgsum2d_.c strbr2d_.c strbs2d_.c strrv2d_.c strsd2d_.c zgamn2d_.c zgamx2d_.c zgebr2d_.c zgebs2d_.c zgerv2d_.c zgesd2d_.c zgsum2d_.c ztrbr2d_.c ztrbs2d_.c ztrrv2d_.c ztrsd2d_.c ----------------------------------------------------------- path: /netlib/blacs/nxblacs/BLACS/SRC/NX/INTERNAL/ ----------------------------------------------------------- Arecv2d00.c Arecv2dID.c ArgCheck00.c Asend2d00.c Asend2dID.c BE_comb.c Bconfig.h Bdef.h BlacsAbort00.c BlacsErr.c BlacsWarn.c BuffIsFree.c GetCombBuff.c GlobalVars.c Shyp_br.c Shyp_bs.c Sidring_br.c Sidring_bs.c Smpath_br.c Smpath_bs.c Srecv2d00.c Srecv2dID.c Ssend2d00.c Ssend2dID.c Ssring_br.c Ssring_bs.c Stree_br.c Stree_bs.c TransDist.c cvvamn.c cvvamn2.c cvvamx.c cvvamx2.c cvvsum.c dvvamn.c dvvamn2.c dvvamx.c dvvamx2.c dvvsum.c getbuff.c ivvamn.c ivvamn2.c ivvamx.c ivvamx2.c ivvsum.c mvcopy4.c mvcopy8.c svvamn.c svvamn2.c svvamx.c svvamx2.c svvsum.c tree_comb.c tvcopy16.c tvcopy4.c tvcopy8.c vmcopy4.c vmcopy8.c vtcopy16.c vtcopy4.c vtcopy8.c zvvamn.c zvvamn2.c zvvamx.c zvvamx2.c zvvsum.c ----------------------------------------------------------- for PVM version of the BLACS. UPDATED: February path: /netlib/blacs/pvmblacs/ ----------------------------------------------------------- BLACS/ ----------------------------------------------------------- path: /netlib/blacs/pvmblacs/BLACS/ ----------------------------------------------------------- BMAKES/ Bmake.inc LIB/ Makefile SRC/ ----------------------------------------------------------- path: /netlib/blacs/pvmblacs/BLACS/BMAKES/ ----------------------------------------------------------- Bmake.ALPHA Bmake.CM5 Bmake.HPPA Bmake.I860 Bmake.LINUX Bmake.PMAX Bmake.RS6K Bmake.SGI Bmake.SP1 Bmake.SP2 Bmake.SUN4 ----------------------------------------------------------- path: /netlib/blacs/pvmblacs/BLACS/LIB/ ----------------------------------------------------------- LIB.log ----------------------------------------------------------- path: /netlib/blacs/pvmblacs/BLACS/SRC/ ----------------------------------------------------------- PVM/ README ----------------------------------------------------------- path: /netlib/blacs/pvmblacs/BLACS/SRC/PVM/ ----------------------------------------------------------- Bconfig.h Bdef.h INTERNAL/ Makefile blacs_abort_.c blacs_barrier_.c blacs_exit_.c blacs_freebuff_.c blacs_get_.c blacs_gridexit_.c blacs_gridinfo_.c blacs_gridinit_.c blacs_gridmap_.c blacs_pcoord_.c blacs_pinfo_.c blacs_pnum_.c blacs_set_.c blacs_setup_.c cgamn2d_.c cgamx2d_.c cgebr2d_.c cgebs2d_.c cgerv2d_.c cgesd2d_.c cgsum2d_.c ctrbr2d_.c ctrbs2d_.c ctrrv2d_.c ctrsd2d_.c dcputime00_.c dgamn2d_.c dgamx2d_.c dgebr2d_.c dgebs2d_.c dgerv2d_.c dgesd2d_.c dgsum2d_.c dtrbr2d_.c dtrbs2d_.c dtrrv2d_.c dtrsd2d_.c dwalltime00_.c igamn2d_.c igamx2d_.c igebr2d_.c igebs2d_.c igerv2d_.c igesd2d_.c igsum2d_.c itrbr2d_.c itrbs2d_.c itrrv2d_.c itrsd2d_.c kbrid_.c kbsid_.c krecvid_.c ksendid_.c setpvmtids_.c sgamn2d_.c sgamx2d_.c sgebr2d_.c sgebs2d_.c sgerv2d_.c sgesd2d_.c sgsum2d_.c strbr2d_.c strbs2d_.c strrv2d_.c strsd2d_.c zgamn2d_.c zgamx2d_.c zgebr2d_.c zgebs2d_.c zgerv2d_.c zgesd2d_.c zgsum2d_.c ztrbr2d_.c ztrbs2d_.c ztrrv2d_.c ztrsd2d_.c ----------------------------------------------------------- path: /netlib/blacs/pvmblacs/BLACS/SRC/PVM/INTERNAL/ ----------------------------------------------------------- ArgCheck00.c BE_comb.c Bconfig.h Bdef.h BlacsAbort00.c BlacsErr.c BlacsWarn.c GlobalVars.c Shyp_br.c Shyp_bs.c Sidring_br.c Sidring_bs.c Smpath_br.c Smpath_bs.c Srecv2d00.c Srecv2dID.c Ssend2d00.c Ssend2dID.c Ssring_br.c Ssring_bs.c Stree_br.c Stree_bs.c TransDist.c cgpk4amxamn.c cgpk4op.c cgupk4amxamn.c cgupk4op.c cgupk_amn.c cgupk_amn2.c cgupk_amx.c cgupk_amx2.c cgupk_sum.c cpack00.c ctrpack00.c ctrunpack00.c cunpack00.c dgpk4amxamn.c dgpk4op.c dgupk4amxamn.c dgupk4op.c dgupk_amn.c dgupk_amn2.c dgupk_amx.c dgupk_amx2.c dgupk_sum.c dpack00.c dtrpack00.c dtrunpack00.c dunpack00.c getbuff.c igpk4amxamn.c igpk4op.c igupk4amxamn.c igupk4op.c igupk_amn.c igupk_amn2.c igupk_amx.c igupk_amx2.c igupk_sum.c ipack00.c itrpack00.c itrunpack00.c iunpack00.c sgpk4amxamn.c sgpk4op.c sgupk4amxamn.c sgupk4op.c sgupk_amn.c sgupk_amn2.c sgupk_amx.c sgupk_amx2.c sgupk_sum.c spack00.c strpack00.c strunpack00.c sunpack00.c tree_comb.c zgpk4amxamn.c zgpk4op.c zgupk4amxamn.c zgupk4op.c zgupk_amn.c zgupk_amn2.c zgupk_amx.c zgupk_amx2.c zgupk_sum.c zpack00.c ztrpack00.c ztrunpack00.c zunpack00.c ----------------------------------------------------------- for blas (level 1, 2 and 3) and machine constants path: /netlib/blas/ ----------------------------------------------------------- ##################################################################### # BLAS Index (Levels 1, 2, and 3) # # # # NOTE: All BLAS routines are listed in the order in which # # they appear on the BLAS Quick Reference Guide. # # # # Organization of this index: # # Documentation and Test Suites # # Miscellaneous and Auxiliary Routines # # Level 1 BLAS routines # # Level 2 BLAS routines # # Level 3 BLAS routines # # Extended precision Level 2 BLAS routines # ##################################################################### .depend alg-post blas/ for LEVEL 1, 2, and 3 BLAS routines in all precisions # (If only a specific precision or level is desired, please see the appropriate section of this index for details.) prec single, double, complex, doublecomplex lang fortran # # DOCUMENTATION AND TEST SUITES # blas2-paper.roff blasqr.ps for quick reference guide for the BLAS. lang postscript blas3-paper.ps for details on the Level 3 BLAS lang PostScript blas2-paper.ps for details on the Level 2 BLAS lang PostScript blas2test.f for original test driver for the real level two blas dependencies doc/ index2 old/ paper-post quick_reference readme sblat1 dblat1 cblat1 tuned zblat1 for Level 1 BLAS Test Suite prec single, double, complex, doublecomplex lang fortran sblat2 dblat2 cblat2 zblat2 for Level 2 BLAS Test Suite prec single, double, complex, doublecomplex lang fortran sblat2d dblat2d cblat2d zblat2d for Data files required by the Level 2 BLAS Test Suite sblat3 dblat3 cblat3 zblat3 for Level 3 BLAS Test Suite prec single, double, complex, doublecomplex lang fortran sblat3d dblat3d cblat3d zblat3d for Data files required by the Level 3 BLAS Test Suite # # MISCELLANEOUS AND AUXILIARY ROUTINES # i1mach.f gams r1 for integer machine constants (like Fortran units for standard input) r1mach.f gams r1 for real machine constants (like "machine epsilon" and "biggest number") d1mach.f gams r1 for double precision machine constants machar.f gams r1 prec single, double # precisions can be extracted from the supplied source code with simple editing changes. NOTE: at least one version MUST be extracted before the source will compile. MACHAR is an evolving subroutine for dynamically determining thirteen fundamental parameters associated with floating-point arithmetic. The original version was published in Cody and Waite, Software Manual for the Elementary Functions, Prentice-Hall, 1980. The present version has been modified to operate correctly with IEEE floating-point arithmetic. It will malfunction on many CRAY and most CYBER systems, however. See by W. J. Cody ref "MACHAR: dynamically determine machine parameters," TOMS 14, Dec 1988 machar.c gams r1 # C source for machar and a driver. Float and double versions are selected with compiler directives. smach.f dmach.f cmach.f zmach.f for computes machine parameters of floating point arithmetic for use in testing only. prec single, double, complex, doublecomplex slamch.f dlamch.f for LAPACK routine to determine machine parameters prec single, double dgelu.f dgelub.f for LU factorization of an m-by-n matrix A prec double dmr prec double for DGEMM for IBM RS/6000 by Dongarra, Mayes, and Radicatti gams D1b6 lang Fortran dcabs1.f for computes absolute value of a doublecomplex number (Auxiliary Routine for a few Level 1 BLAS routines) prec doublecomplex lsame.f for Test if the characters are equal. (Auxiliary Routine in Level 2 and 3 BLAS routines) xerbla.f for error handler for the Level 2 and 3 BLAS routines. (Auxiliary Routine) # # LEVEL 1 BLAS ROUTINES # blas1/ for Level 1 BLAS routines in all precisions prec single, double, complex, doublecomplex gams D1a sblas1.f dblas1.f cblas1.f zblas1.f for all the Level 1 BLAS for this type prec single, double, complex, doublecomplex gams D1a srotg.f drotg.f crotg.f zrotg.f for setup Givens rotation prec single, double, complex, doublecomplex gams D1b10 srotmg.f drotmg.f for setup modified Givens rotation prec single, double srot.f drot.f csrot.f zdrot.f for apply Givens rotation prec single, double, complex, doublecomplex gams D1a8, D1b10 srotm.f drotm.f for apply modified Givens rotation prec single, double sswap.f dswap.f cswap.f zswap.f for swap x and y prec single, double, complex, doublecomplex gams D1a5 sscal.f dscal.f cscal.f zscal.f csscal.f zdscal.f for x = a*x prec single, double, complex, doublecomplex, complex, doublecomplex gams D1a6 scopy.f dcopy.f ccopy.f zcopy.f for copy x into y prec single, double, complex, doublecomplex gams D1a5 saxpy.f daxpy.f caxpy.f zaxpy.f for y = a*x + y prec single, double, complex, doublecomplex gams D1a7 sdot.f ddot.f for dot product prec single, double gams D1a4 sdsdot.f for dot product with extended precision accumulation dsdot.f for dot product with extended precision accumulation and result cdotu.f zdotu.f for dot product prec complex, doublecomplex gams D1a4 cdotc.f zdotc.f for dot product, conjugating the first vector prec complex, doublecomplex gams D1a4 snrm2.f dnrm2.f scnrm2.f dznrm2.f for Euclidean norm prec single, double, complex, doublecomplex gams D1a3b sasum.f dasum.f scasum.f dzasum.f for sum of absolute values prec single, double, complex, doublecomplex gams D1a3a isamax.f idamax.f icamax.f izamax.f for index of max abs value prec single, double, complex, doublecomplex gams D1a2,D1a3c,N5a # # LEVEL 2 BLAS ROUTINES # blas2/ for Level 2 BLAS routines in all precisions prec single, double, complex, doublecomplex gams D1a sblas2.f dblas2.f cblas2.f zblas2.f for all the Level 2 BLAS for this type prec single, double, complex, doublecomplex gams D1a sblas2time.f dblas2time.f cblas2time.f zblas2time.f for timing the Level 2 BLAS prec single, double, complex, doublecomplex sgemv.f dgemv.f cgemv.f zgemv.f for matrix vector multiply prec single, double, complex, doublecomplex gams D1b4 sgbmv.f dgbmv.f cgbmv.f zgbmv.f for banded matrix vector multiply prec single, double, complex, doublecomplex gams D1b4 chemv.f zhemv.f for hermitian matrix vector multiply prec complex, doublecomplex gams D1b6 chbmv.f zhbmv.f for hermitian banded matrix vector multiply prec complex, doublecomplex gams D1b4 chpmv.f zhpmv.f for hermitian packed matrix vector multiply prec complex, doublecomplex gams D1b4 ssymv.f dsymv.f for symmetric matrix vector multiply prec single, double gams D1b4 ssbmv.f dsbmv.f for symmetric banded matrix vector multiply prec single, double gams D1b4 sspmv.f dspmv.f for symmetric packed matrix vector multiply prec single, double gams D1b4 strmv.f dtrmv.f ctrmv.f ztrmv.f for triangular matrix vector multiply prec single, double, complex, doublecomplex gams D1b4 stbmv.f dtbmv.f ctbmv.f ztbmv.f for triangular banded matrix vector multiply prec single, double, complex, doublecomplex gams D1b4 stpmv.f dtpmv.f ctpmv.f ztpmv.f for triangular packed matrix vector multiply prec single, double, complex, doublecomplex gams D1b4 strsv.f dtrsv.f ctrsv.f ztrsv.f for solving triangular matrix problems prec single, double, complex, doublecomplex gams D2a3,D2c3 stbsv.f dtbsv.f ctbsv.f ztbsv.f for solving triangular banded matrix problems prec single, double, complex, doublecomplex gams D2a3,D2a2,D2c2,D2c3 stpsv.f dtpsv.f ctpsv.f ztpsv.f for solving triangular packed matrix problems prec single, double, complex, doublecomplex gams D2a3,D2c3 sger.f dger.f for performs the rank 1 operation A := alpha*x*y' + A, prec single, double gams D1b5 cgeru.f zgeru.f for performs the rank 1 operation A := alpha*x*y' + A prec complex, doublecomplex gams D1a5 cgerc.f zgerc.f for performs the rank 1 operation A := alpha*x*conjg( y' ) + A prec complex, doublecomplex gams D1a5 cher.f zher.f for hermitian rank 1 operation A := alpha*x*conjg(x') + A prec complex, doublecomplex gams D1b5 chpr.f zhpr.f for hermitian packed rank 1 operation A := alpha*x*conjg( x' ) + A prec complex, doublecomplex gams D1b5 cher2.f zher2.f for hermitian rank 2 operation A := alpha*x*conjg( y' ) + conjg( alpha )*y*conjg( x' ) + A prec complex, doublecomplex gams D1b5 chpr2.f zhpr2.f for hermitian packed rank 2 operation A := alpha*x*conjg( y' ) + conjg( alpha )*y*conjg( x' ) + A prec complex, doublecomplex gams D1b5 ssyr.f dsyr.f for performs the symmetric rank 1 operation A := alpha*x*x' + A prec single, double gams D1b5 sspr.f dspr.f for symmetric packed rank 1 operation A := alpha*x*x' + A prec single, double gams D1b5 ssyr2.f dsyr2.f for performs the symmetric rank 2 operation A := alpha*x*y' + alpha*y*x' + A prec single, double gams D1b5 sspr2.f dspr2.f for performs the symmetric packed rank 2 operation A := alpha*x*y' + alpha*y*x' + A prec single, double gams D1b5 # # LEVEL 3 BLAS ROUTINES # blas3/ for Level 3 BLAS routines in all precisions prec single, double, complex, doublecomplex gams D1b sblas3.f dblas3.f cblas3.f zblas3.f for all the Level 3 BLAS of this type prec single, double, complex, doublecomplex gams D1b sblas3time.f dblas3time.f cblas3time.f zblas3time.f for timing the Level 3 BLAS prec single, double, complex, doublecomplex sgemm.f dgemm.f cgemm.f zgemm.f for matrix matrix multiply prec single, double, complex, doublecomplex gams D1b6 ssymm.f dsymm.f csymm.f zsymm.f for symmetric matrix matrix multiply prec single, double, complex, doublecomplex gams D1b6 chemm.f zhemm.f for hermitian matrix matrix multiply prec complex, doublecomplex gams D1b6 ssyrk.f dsyrk.f csyrk.f zsyrk.f for symmetric rank-k update to a matrix prec single, double, complex, doublecomplex gams D1b5 cherk.f zherk.f for hermitian rank-k update to a matrix prec complex, doublecomplex gams D1b5 ssyr2k.f dsyr2k.f csyr2k.f zsyr2k.f for symmetric rank-2k update to a matrix prec single, double, complex, doublecomplex gams D1b5 cher2k.f zher2k.f for hermitian rank-2k update to a matrix prec complex, doublecomplex gams D1b5 strmm.f dtrmm.f ctrmm.f ztrmm.f for triangular matrix matrix multiply prec single, double, complex, doublecomplex gams D1b6 strsm.f dtrsm.f ctrsm.f ztrsm.f for solving triangular matrix with multiple right hand sides prec single, double, complex, doublecomplex gams D2a3,D2c3 # # EXTENDED PRECISION LEVEL 2 BLAS # ecblas2.f for all the Level 2 BLAS for this type, with extended precision accumulation prec complex gams D1a ecgbmv.f ecgemv.f for performs one of the matrix-vector operations: y := alpha*A*x + beta*y, or y := alpha*A'*x + beta*y, or y := alpha*conjg( A' )*x + beta*y ecgerc.f for performs the rank 1 operation A := alpha*x*conjg( y' ) + A ecgeru.f for performs the rank 1 operation A := alpha*x*y' + A echemv.f echbmv.f echpmv.f for performs the matrix-vector operation y := alpha*A*x + beta*y echer.f for performs the hermitian rank 1 operation A := alpha*x*conjg( x' ) + A echer2.f for hermitian rank 2 operation A := alpha*x*conjg( y' ) + conjg( alpha )*y*conjg( x' ) + A echpr.f for hermitian rank 1 operation A := alpha*x*conjg( x' ) + A echpr2.f for hermitian rank 2 operation A := alpha*x*conjg( y' ) + conjg( alpha )*y*conjg( x' ) + A ectrmv.f ectbmv.f ectpmv.f for performs one of the matrix-vector operations x := A*x, or x := A'*x, or x := conjg( A' )*x ectrsv.f ectbsv.f ectpsv.f for solves one of the systems of equations A*x = b, or A'*x = b, or conjg( A' )*x = b esblas2.f for all the Level 2 BLAS for this type, with extended precision accumulation prec single gams D1a esgbmv.f esgemv.f for performs one of the matrix-vector operations y := alpha*A*x + beta*y, or y := alpha*A'*x + beta*y esger.f for performs the rank 1 operation A := alpha*x*y' + A where alpha is a scalar, x is an m element vector, y is an n element vector and A is an m by n matrix. essymv.f essbmv.f esspmv.f for performs the matrix-vector operation y := alpha*A*x + beta*y essyr.f esspr.f for performs the symmetric rank 1 operation A := alpha*x*x' + A where alpha is a real scalar, x is an n element vector and A is an n by n symmetric matrix. essyr2.f esspr2.f for performs the symmetric rank 2 operation A := alpha*x*y' + alpha*y*x' + A, where alpha is a scalar, x and y are n element vectors and A is an n by n symmetric matrix. estrmv.f estbmv.f estpmv.f for performs one of the matrix-vector operations x := A*x, or x := A'*x where x is n element vector and A is an n by n unit, or non-unit, upper or lower triangular matrix. estrsv.f estbsv.f estpsv.f for solves one of the systems of equations A*x = b, or A'*x = b, where b and x are n element vectors and A is an n by n unit, or non-unit, upper or lower triangular matrix. gemm_based/ for Level 3 BLAS tuned for single processors with caches by Kagstrom B., Ling P., and Van Loan C. title High Performance GEMM-Based Level-3 BLAS ref High Performance Computing II, 1991, North-Holland lang Fortran ----------------------------------------------------------- for LEVEL 1, 2, and 3 BLAS routines in all path: /netlib/blas/blas/ ----------------------------------------------------------- caxpy.f ccopy.f cdotc.f cdotu.f cgbmv.f cgemm.f cgemv.f cgerc.f cgeru.f chbmv.f chemm.f chemv.f cher.f cher2.f cher2k.f cherk.f chpmv.f chpr.f chpr2.f crotg.f cscal.f csrot.f csscal.f cswap.f csymm.f csyr2k.f csyrk.f ctbmv.f ctbsv.f ctpmv.f ctpsv.f ctrmm.f ctrmv.f ctrsm.f ctrsv.f dasum.f daxpy.f dcabs1.f dcopy.f ddot.f dgbmv.f dgemm.f dgemv.f dger.f dnrm2.f drot.f drotg.f drotm.f drotmg.f dsbmv.f dscal.f dspmv.f dspr.f dspr2.f dswap.f dsymm.f dsymv.f dsyr.f dsyr2.f dsyr2k.f dsyrk.f dtbmv.f dtbsv.f dtpmv.f dtpsv.f dtrmm.f dtrmv.f dtrsm.f dtrsv.f dzasum.f dznrm2.f icamax.f idamax.f isamax.f izamax.f lsame.f sasum.f saxpy.f scasum.f scnrm2.f scopy.f sdot.f sgbmv.f sgemm.f sgemv.f sger.f snrm2.f srot.f srotg.f srotm.f srotmg.f ssbmv.f sscal.f sspmv.f sspr.f sspr2.f sswap.f ssymm.f ssymv.f ssyr.f ssyr2.f ssyr2k.f ssyrk.f stbmv.f stbsv.f stpmv.f stpsv.f strmm.f strmv.f strsm.f strsv.f xerbla.f zaxpy.f zcopy.f zdotc.f zdotu.f zdrot.f zdscal.f zgbmv.f zgemm.f zgemv.f zgerc.f zgeru.f zhbmv.f zhemm.f zhemv.f zher.f zher2.f zher2k.f zherk.f zhpmv.f zhpr.f zhpr2.f zrotg.f zscal.f zswap.f zsymm.f zsyr2k.f zsyrk.f ztbmv.f ztbsv.f ztpmv.f ztpsv.f ztrmm.f ztrmv.f ztrsm.f ztrsv.f ----------------------------------------------------------- for Level 1 BLAS routines in all precisions path: /netlib/blas/blas1/ ----------------------------------------------------------- caxpy.f ccopy.f cdotc.f cdotu.f crotg.f cscal.f csrot.f csscal.f cswap.f dasum.f daxpy.f dcabs1.f dcopy.f ddot.f dnrm2.f drot.f drotg.f drotm.f drotmg.f dscal.f dswap.f dzasum.f dznrm2.f icamax.f idamax.f isamax.f izamax.f sasum.f saxpy.f scasum.f scnrm2.f scopy.f sdot.f snrm2.f srot.f srotg.f srotm.f srotmg.f sscal.f sswap.f zaxpy.f zcopy.f zdotc.f zdotu.f zdrot.f zdscal.f zrotg.f zscal.f zswap.f ----------------------------------------------------------- for Level 2 BLAS routines in all precisions path: /netlib/blas/blas2/ ----------------------------------------------------------- cgbmv.f cgemv.f cgerc.f cgeru.f chbmv.f chemv.f cher.f cher2.f chpmv.f chpr.f chpr2.f ctbmv.f ctbsv.f ctpmv.f ctpsv.f ctrmv.f ctrsv.f dgbmv.f dgemv.f dger.f dsbmv.f dspmv.f dspr.f dspr2.f dsymv.f dsyr.f dsyr2.f dtbmv.f dtbsv.f dtpmv.f dtpsv.f dtrmv.f dtrsv.f lsame.f sgbmv.f sgemv.f sger.f ssbmv.f sspmv.f sspr.f sspr2.f ssymv.f ssyr.f ssyr2.f stbmv.f stbsv.f stpmv.f stpsv.f strmv.f strsv.f xerbla.f zgbmv.f zgemv.f zgerc.f zgeru.f zhbmv.f zhemv.f zher.f zher2.f zhpmv.f zhpr.f zhpr2.f ztbmv.f ztbsv.f ztpmv.f ztpsv.f ztrmv.f ztrsv.f ----------------------------------------------------------- for Level 3 BLAS routines in all precisions path: /netlib/blas/blas3/ ----------------------------------------------------------- cgemm.f chemm.f cher2k.f cherk.f csymm.f csyr2k.f csyrk.f ctrmm.f ctrsm.f dgemm.f dsymm.f dsyr2k.f dsyrk.f dtrmm.f dtrsm.f lsame.f sgemm.f ssymm.f ssyr2k.f ssyrk.f strmm.f strsm.f xerbla.f zgemm.f zhemm.f zher2k.f zherk.f zsymm.f zsyr2k.f zsyrk.f ztrmm.f ztrsm.f ----------------------------------------------------------- path: /netlib/blas/doc/ ----------------------------------------------------------- cblas.ps cblas.tex permission ----------------------------------------------------------- for Level 3 BLAS tuned for single processors with path: /netlib/blas/gemm_based/ ----------------------------------------------------------- dbench/ for performance evaluation of Level 3 BLAS kernel programs prec double size 314 kB dgbl3b/ for Level 3 BLAS tuned for single processors with caches prec double size 207 kB info.ps readme sbench/ for performance evaluation of Level 3 BLAS kernel programs prec single size 314 kB sgbl3b/ for Level 3 BLAS tuned for single processors with caches prec single size 207 kB zbench/ for performance evaluation of Level 3 BLAS kernel programs prec doublecomplex size 418 kB zgbl3b/ for Level 3 BLAS tuned for singlecomplex processors with caches prec doublecomplex size 260 kB cbench/ for performance evaluation of Level 3 BLAS kernel programs prec singlecomplex size 418 kB cgbl3b/ for Level 3 BLAS tuned for singlecomplex processors with caches prec singlecomplex size 260 kB ----------------------------------------------------------- for performance evaluation of Level 3 BLAS kernel path: /netlib/blas/gemm_based/cbench/ ----------------------------------------------------------- INSTALL Makefile cgb02.f cgb03.f cgb04.f cgb05.f cgb06.f cgb07.f cgb08.f cgb09.f cgb90.f cgb91.f cgbt01.f cgbt02.f cgbtim.f cgbtp1.f cgbtp2.f cmark01.in cmark02.in csbpm.f eoln.f example.in getwrd.f lsame.f newcgpm.in second.f xerbla.f ----------------------------------------------------------- for Level 3 BLAS tuned for singlecomplex processors path: /netlib/blas/gemm_based/cgbl3b/ ----------------------------------------------------------- INSTALL Makefile cbigp.f ccld.f cgpm.in chemm.f cher2k.f cherk.f csgpm.f csymm.f csyr2k.f csyrk.f ctrmm.f ctrsm.f eoln.f getwrd.f lsame.f xerbla.f ----------------------------------------------------------- for performance evaluation of Level 3 BLAS kernel path: /netlib/blas/gemm_based/dbench/ ----------------------------------------------------------- INSTALL Makefile README dgb02.f dgb04.f dgb06.f dgb08.f dgb09.f dgb90.f dgb91.f dgbt01.f dgbt02.f dgbtim.f dgbtp1.f dgbtp2.f dmark01.in dmark02.in dsbpm.f dsecnd.f eoln.f example.in example2.in getwrd.f lsame.f newdgpm.in xerbla.f ----------------------------------------------------------- for Level 3 BLAS tuned for single processors with path: /netlib/blas/gemm_based/dgbl3b/ ----------------------------------------------------------- INSTALL Makefile README dbigp.f dcld.f dgpm.in dsgpm.f dsymm.f dsyr2k.f dsyrk.f dtrmm.f dtrsm.f eoln.f getwrd.f lsame.f xerbla.f ----------------------------------------------------------- for performance evaluation of Level 3 BLAS kernel path: /netlib/blas/gemm_based/sbench/ ----------------------------------------------------------- INSTALL Makefile README eoln.f example.in example2.in getwrd.f lsame.f newsgpm.in second.f sgb02.f sgb04.f sgb06.f sgb08.f sgb09.f sgb90.f sgb91.f sgbt01.f sgbt02.f sgbtim.f sgbtp1.f sgbtp2.f smark01.in smark02.in ssbpm.f xerbla.f ----------------------------------------------------------- for Level 3 BLAS tuned for single processors with path: /netlib/blas/gemm_based/sgbl3b/ ----------------------------------------------------------- INSTALL Makefile README eoln.f getwrd.f lsame.f sbigp.f scld.f sgpm.in ssgpm.f ssymm.f ssyr2k.f ssyrk.f strmm.f strsm.f xerbla.f ----------------------------------------------------------- for performance evaluation of Level 3 BLAS kernel path: /netlib/blas/gemm_based/zbench/ ----------------------------------------------------------- INSTALL Makefile dsecnd.f eoln.f example.in getwrd.f lsame.f newzgpm.in xerbla.f zgb02.f zgb03.f zgb04.f zgb05.f zgb06.f zgb07.f zgb08.f zgb09.f zgb90.f zgb91.f zgbt01.f zgbt02.f zgbtim.f zgbtp1.f zgbtp2.f zmark01.in zmark02.in zsbpm.f ----------------------------------------------------------- for Level 3 BLAS tuned for singlecomplex processors path: /netlib/blas/gemm_based/zgbl3b/ ----------------------------------------------------------- INSTALL Makefile eoln.f getwrd.f lsame.f xerbla.f zbigp.f zcld.f zgpm.in zhemm.f zher2k.f zherk.f zsgpm.f zsymm.f zsyr2k.f zsyrk.f ztrmm.f ztrsm.f ----------------------------------------------------------- path: /netlib/blas/old/ ----------------------------------------------------------- dnrm2.f dznrm2.f scnrm2.f snrm2.f ----------------------------------------------------------- for Brent's multiple precision package path: /netlib/bmp/ ----------------------------------------------------------- descr.deck for description of sorts of a multi-precision arithmetic in Fortran istkgt.f for stack allocation routines for the multi-precision arithmetic package mcsupport.f for multi-precision complex arithmetic in a meta-Fortran mcsupport.aug for multi-precision complex artihmetic using bmp routines mp.f for multi-precision arithmetic in Fortran size 237 kB msupport.f for multi-precision mathematical functions using bmp routines msupport2.f for multi-precision arithmetic auxillary routines in a meta-Fortran msupport2.aug for auxillary routines for (mp) seterr.f for error handling routines test1.f for a test code for the multi-precision arithmetic package test2.f for a test code for the multi-precision arithmetic package guide for user's guide ----------------------------------------------------------- for miscellaneous codes in C++ path: /netlib/c++/ ----------------------------------------------------------- brent_cc/ for Brent's univariate minimizer and zero finder. by Oleg Kiselyov ref G.Forsythe, M.Malcolm, C.Moler, Computer methods for mathematical computations. prec double see c++/serv_cc.shar fft/ for Radix-2 Fast Fourier Transform by Oleg Kiselyov prec single/double see c++/lin_alg.shar, c++/serv_cc.shar hl_vector/ for High level vector operations # Contains the Aitken-Lagrange interpolation over the table of uniform or arbitrary mesh, and the Hook-Jeevse multidimensional minimizer. by Oleg Kiselyov prec single/double see c++/lin_alg.shar, c++/serv_cc.shar lapack++/ for LAPACK++ LAPACK extensions for high performance linear algebra computations. This version includes support for solving linear systems using LU, Cholesky, and QR matrix factorizations. by Roldan Pozo lin_alg/ for basic linear algebra classes by Oleg Kiselyov prec single/double see c++/serv_cc.shar # vastly expanded, Feb 1995. Added various multiplications/ inversion/transpositions, and the new style of returning matrices (via LazyMatrix) and filling them out. lang ANSI-C++ compliant (compiles on g++ v2.6.3) serv_cc/ for a couple of functions that ought to be in the standard C++ environment; - Updated G++ class File that allows now for the file name to include pipes, say, File in_file("zcat aaa.Z |","r"); - Resource facility, or managing global "private" parameters that specify various program "options". It helps keep reasonable number of arguments in function calls. by Oleg Kiselyov lparx-1.0/ for LPARX provides efficient run-time support for dynamic, non-uniform scientific calculations running on MIMD distributed memory architectures. It extends HPF's data decomposition model to provide support for dynamic, block irregular data structures. LPARX represents data decompositions as first-class objects and expresses data dependencies in a manner which is logically independent of data decomposition and problem dimension. LPARX applications are portable across a diversity of MIMD machines. by Scott Baden and Scott Kohn size 1.8 MB ----------------------------------------------------------- for Brent's univariate minimizer and zero finder. path: /netlib/c++/brent_cc/ ----------------------------------------------------------- Makefile c++ c++l fminbr.cc math_num.h myenv.cc myenv.h vfminbr.cc vfminbr.dat vzeroin.cc vzeroin.dat zeroin.cc ----------------------------------------------------------- for Radix-2 Fast Fourier Transform path: /netlib/c++/fft/ ----------------------------------------------------------- Makefile c++ c++l fft.h fft_init.cc fft_input.cc fft_output.cc math_num.h myenv.cc myenv.h vfft.cc vfft.dat ----------------------------------------------------------- for High level vector operations path: /netlib/c++/hl_vector/ ----------------------------------------------------------- Makefile ali.cc c++ c++l hjmin.cc math_num.h myenv.cc myenv.h vali.cc vali.dat vhjmin.cc vhjmin.lst ----------------------------------------------------------- for LAPACK++ LAPACK extensions for high path: /netlib/c++/lapack++/ ----------------------------------------------------------- overview.ps for "LAPACK++: A Design Overview of Object-Oriented Extensions for High Performance Linear Algebra," J. J. Dongarra, R. Pozo, David W. Walker size 272 kB rel10.ps for Release notes and Installation manual for LAPACK++ user.ps for User Guide for LAPACK++ size 376 kB lapack++/ for source code for LAPACK++ size 655 kB readme ----------------------------------------------------------- for source code for LAPACK++ path: /netlib/c++/lapack++/lapack++/ ----------------------------------------------------------- LAPACK++/ ----------------------------------------------------------- path: /netlib/c++/lapack++/lapack++/LAPACK++/ ----------------------------------------------------------- BLAS++/ COPYRIGHT INCLUDE/ LIBS/ MATRIX/ README SRC/ TESTING/ makeHPPA.def makeRS6K.def makeSPARC.def makeSUN4.def makeSUN4CC.def makeSUN4g++.def makefile makefile.def ----------------------------------------------------------- path: /netlib/c++/lapack++/lapack++/LAPACK++/BLAS++/ ----------------------------------------------------------- SRC/ TESTING/ ----------------------------------------------------------- path: /netlib/c++/lapack++/lapack++/LAPACK++/BLAS++/SRC/ ----------------------------------------------------------- README blas1++.cc blas2++.cc blas3++.cc makefile ----------------------------------------------------------- path: /netlib/c++/lapack++/lapack++/LAPACK++/BLAS++/TESTING/ ----------------------------------------------------------- SUN4g++.out blas++_test makefile tblasc++.cc tblasc++.out tblasd++.cc tblasd++.out ----------------------------------------------------------- path: /netlib/c++/lapack++/lapack++/LAPACK++/INCLUDE/ ----------------------------------------------------------- arch.h bfd.h blas++.h blas1++.h blas1.h blas2++.h blas2.h blas3++.h blas3.h bmd.h f2c.h fmd.h genmd.h gfd.h gmc.h gmd.h gmf.h gmi.h gmli.h lacvd.h laexcp.h lafnames.h laindex.h lapack++.h lapack.h lapackc.h lapackd.h larvd.h laslv.h lautil.h lavc.h lavd.h lavf.h lavi.h lavli.h ltgmd.h spdbmd.h spdfd.h spdmd.h spdtrmd.h sybfd.h sybmd.h syfd.h symd.h sytrmd.h template_v.h trfd.h trmd.h ultgmd.h utgmd.h uutgmd.h vc.h vd.h vf.h vi.h vli.h ----------------------------------------------------------- path: /netlib/c++/lapack++/lapack++/LAPACK++/LIBS/ ----------------------------------------------------------- HPPA/ RS6K/ SUN4/ ----------------------------------------------------------- path: /netlib/c++/lapack++/lapack++/LAPACK++/LIBS/HPPA/ ----------------------------------------------------------- blank ----------------------------------------------------------- path: /netlib/c++/lapack++/lapack++/LAPACK++/LIBS/RS6K/ ----------------------------------------------------------- blank ----------------------------------------------------------- path: /netlib/c++/lapack++/lapack++/LAPACK++/LIBS/SUN4/ ----------------------------------------------------------- CC/ g++/ ----------------------------------------------------------- path: /netlib/c++/lapack++/lapack++/LAPACK++/LIBS/SUN4/CC/ ----------------------------------------------------------- blank ----------------------------------------------------------- path: /netlib/c++/lapack++/lapack++/LAPACK++/LIBS/SUN4/g++/ ----------------------------------------------------------- blank ----------------------------------------------------------- path: /netlib/c++/lapack++/lapack++/LAPACK++/MATRIX/ ----------------------------------------------------------- SRC/ TESTING/ ----------------------------------------------------------- path: /netlib/c++/lapack++/lapack++/LAPACK++/MATRIX/SRC/ ----------------------------------------------------------- MAKEFILE bmd.cc gmc.cc gmd.cc gmf.cc gmi.cc gmli.cc index.cc lamatrix.rsp lavc.cc lavd.cc lavi.cc lavli.cc ltgmd.cc makefile spdbmd.cc spdmd.cc spdtrmd.cc sybmd.cc symd.cc sytrmd.cc trmd.cc ultgmd.cc utgmd.cc uutgmd.cc vc.cc vd.cc vf.cc vi.cc vli.cc ----------------------------------------------------------- path: /netlib/c++/lapack++/lapack++/LAPACK++/MATRIX/TESTING/ ----------------------------------------------------------- makefile matrix_test tbd.cc tcvd.cc tgc.cc tgd.DATA tgd.cc tld.DATA tld.cc trvd.cc tsbd.cc tsd.cc tsfd.cc tstd.DATA tstd.cc ttdd.cc tud.DATA tud.cc tuld.DATA tuld.cc tuud.DATA tuud.cc tvd.cc tvi.DATA tvi.cc ----------------------------------------------------------- path: /netlib/c++/lapack++/lapack++/LAPACK++/SRC/ ----------------------------------------------------------- dopla.c dtimmg.c eigslv.cc lautil.cc linslv.cc makefile systime.c ----------------------------------------------------------- path: /netlib/c++/lapack++/lapack++/LAPACK++/TESTING/ ----------------------------------------------------------- lapack++_test makefile tEigSolve.cc tGenSolve.cc tSpdSolve.cc tSymmSolve.cc tutil.cc ----------------------------------------------------------- for basic linear algebra classes path: /netlib/c++/lin_alg/ ----------------------------------------------------------- LinAlg.h Makefile NumMath.dr README c++ c++l determinant.cc fminbr.cc math_num.h matrix1.cc matrix2.cc matrix_inv.cc matrix_sub.cc myenv.cc myenv.h sample_adv.cc sample_adv.dat vali.dat vector.cc vfminbr.cc vfminbr.dat vmatrix.cc vmatrix.dat vmatrix1.cc vmatrix1.dat vvector.cc vvector.dat vzeroin.cc vzeroin.dat zeroin.cc ----------------------------------------------------------- for LPARX provides efficient run-time support for path: /netlib/c++/lparx-1.0/ ----------------------------------------------------------- AAAREADME array/ bin/ config/ configure docs/ dpo++/ graph/ lparx/ makefile mp++/ papers/ pde/ sph3d/ ----------------------------------------------------------- path: /netlib/c++/lparx-1.0/array/ ----------------------------------------------------------- AAAREADME Array.h ArrayX.h.m4 BitArrayX.C.m4 BitArrayX.h.m4 PointX.C.m4 PointX.h.m4 RegionX.C.m4 RegionX.h.m4 makefile ----------------------------------------------------------- path: /netlib/c++/lparx-1.0/bin/ ----------------------------------------------------------- AAAREADME Xto1 Xto2 Xto3 Xto4 ipckill pvmload.csh pvmxhost.csh pvmxload.csh pvmxload2.csh ----------------------------------------------------------- path: /netlib/c++/lparx-1.0/config/ ----------------------------------------------------------- cm5-acl cm5-berkeley ksr make.suffix ncube2-g++ paragon-g++ paragon-iCC pvm-alpha pvm-c90 pvm-sun4-CC pvm-sun4-g++ serial-alpha serial-c90 serial-sun4-CC serial-sun4-g++ shmem-CC shmem-g++ ----------------------------------------------------------- path: /netlib/c++/lparx-1.0/docs/ ----------------------------------------------------------- lparx.1l sor/ uguide.ps ----------------------------------------------------------- path: /netlib/c++/lparx-1.0/docs/sor/ ----------------------------------------------------------- parallel/ serial/ ----------------------------------------------------------- path: /netlib/c++/lparx-1.0/docs/sor/parallel/ ----------------------------------------------------------- fillPatch.C initData.C makefile redblack2d.C redblack2d.h redblack5.F relax.C ----------------------------------------------------------- path: /netlib/c++/lparx-1.0/docs/sor/serial/ ----------------------------------------------------------- initData.C makefile redblack2d.C redblack2d.h redblack5.F relax.C ----------------------------------------------------------- path: /netlib/c++/lparx-1.0/dpo++/ ----------------------------------------------------------- AAAREADME RecurseX.C.m4 UniformX.C.m4 XArrayX.C.m4 XArrayX.h.m4 XObject.C XObject.h dpo++.h dpo.C dpo.h makefile partition.h rpo.C rpo.h ----------------------------------------------------------- path: /netlib/c++/lparx-1.0/graph/ ----------------------------------------------------------- AAAREADME XWindow.C XWindow.h XWindow3.C XWindow3.h makefile simple.C ----------------------------------------------------------- path: /netlib/c++/lparx-1.0/lparx/ ----------------------------------------------------------- AAAREADME GridX.h.m4 lparx.h makefile ----------------------------------------------------------- path: /netlib/c++/lparx-1.0/mp++/ ----------------------------------------------------------- AAAREADME Abort.C CM5.h PackBuf.C PackBuf.h PackMsg.C PackMsg.h SendPkt.C SendPkt.h TimeSection.C TimeSection.h arch.h barrier.C concat.C cray.C fastAlloc.C fastAlloc.h fixedAlloc.C fixedAlloc.h iPSC860.h init.C makefile message.C mp++.h nCUBE2.h paragon.h partition.C pvm.C pvm.h pvmhost.C reduce.C seconds.C serial.h shmem.c shmem.h ----------------------------------------------------------- path: /netlib/c++/lparx-1.0/papers/ ----------------------------------------------------------- AAAREADME sc94-abstract.ps shpcc94.ps software-talk.ps uqe-paper.ps uqe-talk.ps ----------------------------------------------------------- path: /netlib/c++/lparx-1.0/pde/ ----------------------------------------------------------- AAAREADME Amr2d.test Amr3d.test AmrXd.C.m4 Chop2d.test Chop3d.test ChopX.C.m4 ChopXd.C.m4 CoverX.C.m4 DisplayX.C.m4 MarkX.C.m4 RegridX.C.m4 RegridXd.C.m4 Shaded2d.C amg2d.test amg3d.test amgX.C.m4 amgX.h.m4 amgXd.C.m4 bAx19.F bAx9.F c20h20d2.F c20h20d3.F coarse2d.F coarse3d.F correct2d.F correct3d.F fixerror2d.F fixerror3d.F gauss19.F genhXd.C.m4 getrand.F gradu2d.F gradu3d.F histo2d.F histo3d.F jacobi.C jacobiXd.C.m4 makefile mgX.C.m4 mgX.h.m4 mgXd.C.m4 plot2d.C plot3d.C project2d.F project3d.F redblack9.F refine2d.F refine3d.F residual19.F residual9.F sgX.C.m4 sgX.h.m4 update2d.F update3d.F ----------------------------------------------------------- path: /netlib/c++/lparx-1.0/sph3d/ ----------------------------------------------------------- AAAREADME Vector3.h bins.C bins.h c90-vector/ density.F densityd.F densitys.F display.C elb.C fortran.h gravity.F makefile particles.C particles.F particles.h pressure.F pressured.F pressures.F reduce.C sph3d.C spiral.C update.F ----------------------------------------------------------- path: /netlib/c++/lparx-1.0/sph3d/c90-vector/ ----------------------------------------------------------- density.F density.perf.data makefile particles.F pressure.F pressure.perf.data ----------------------------------------------------------- for a couple of functions that ought to be in the path: /netlib/c++/serv_cc/ ----------------------------------------------------------- File.cc Makefile c++ c++l myenv.cc myenv.h task_env.cc task_env.h ----------------------------------------------------------- for miscellaneous codes written in C path: /netlib/c/ ----------------------------------------------------------- meschach/ by David E. Stewart des@thrain.anu.edu.au for numerical linear algebra, dense and sparse, with permutations, error handling, input/output, dynamic allocation, de-allocation, re-sizing and copying of objects, dense complex matrices and vectors as well as real matrices and vectors, input and output routines for these objects, and MATLAB save/load format, error/exception handling, basic numerical linear algebra -- linear combinations, inner products, matrix-vector and matrix-matrix products, including transposed and adjoint forms, vector min, max, sorting, componentwise products, quotients, dense matrix factorise and solve -- LU, Cholesky, LDL^T, QR, QR with column pivoting, symmetric indefinite (BKP), dense matrix factorisation update routines -- LDL^T, QR (real matrix updates only), eigenvector/eigenvalue routines -- symmetric, real Schur decomposition, SVD, extract eigenvector, sparse matrix "utility" routines, sparse matrix factorise and solve -- Cholesky, LU and BKP (Bunch-Kaufman-Parlett symmetric indefinite factorisation), sparse incomplete factorisations -- Cholesky and LU, iterative techniques -- pre-conditioned conjugate gradients, CGNE, LSQR, CGS, GMRES, MGCR, Lanczos, Arnoldi, allowance for "procedurally defined" matrices in the iterative techniques, various "torture" routines for checking aspects of Meschach, memory tracking for locating memory leaks lang C prec double # true master copy: ftp thrain.anu.edu.au:pub/meschach/ dcg/ for Preconditioned Conjugate Gradient by Mark Seager, LLNL. sge/ for LINPACK functions SGECO/SGEFA/SGESL (dense matrix conditon number estimate, factorization and solution routines) and some of the BLAS in C. There is a driver which shows how to set up column oriented matrices in C for these routines. by Mark K. Seager (seager@lll-crg.llnl.gov) 4/8/88. gams d2a1 frac for finds rational approximation to floating point value by Robert Craig, AT&T Bell Labs - Naperville ref Jerome Spanier and Keith B. Oldham, "An Atlas of Functions," Springer-Verlag, 1987, pp. 665-7. gams a2, a6c brent/ for Brent's univariate minimizer and zero finder. by Oleg Keselyov May 23, 1991 ref G.Forsythe, M.Malcolm, C.Moler, Computer methods for mathematical computations. # Contains the source code for the program fminbr.c and zeroin.c, test drivers for both, and verifivation protocols. see serv.shar gams f1b, g1a2 serv/ for numerical programming in C # These files are needed to compile the programs in packages brent.shar *vector.shar shar.shar task_env.shar Verification programs and data are included as well. by Oleg Keselyov May 23, 1991 gams l6a14, n1, r1 vector/ for Low and Intermediate Level functions to manage vectors in C. # In fact, the vector declaration as a special structure and a wide set of procedures to handle it define a class (in the sence of C++ or SMALLTALK). It is still a common C, however. Features: high reliability and fool-proof checking, the user can operate on single elements of the vector in the customary C manner, or he may wish to handle the vector as a whole (as an atomary object) with high-effective functions (that can clear the vector, assign vectors or obtain their scalar product, find the vector norm(s), etc.). by Oleg Keselyov May 23, 1991 gams d1a hl_vector/ for high level vector operations. Involves the Aitken-Lagrange interpolation over the table of uniform or arbitrary mesh, Hook-Jeevse local multidimensional minimizer. by Oleg Keselyov May 23, 1991 gams e2a, g1b2 task_env/ for Resource facility, or managing global "private" parameters that specify various program "options". It help keep reasonable number of arguments in function calls. by Oleg Keselyov May 23, 1991 gams z shar/ for Builder for the .shar archive. # Uses service functions and header files from the serv.shar archive by Oleg Keselyov May 23, 1991 numcomp-free-c for index of free source code for numerical computation written in C or C++ by Ajay Shah gams z sgefa/ # see also ode/cvode.tar.Z ----------------------------------------------------------- for Brent's univariate minimizer and zero finder. path: /netlib/c/brent/ ----------------------------------------------------------- fminbr.c vfminbr.c vfminbr.dat vfminbr.dat.vax vzeroin.c vzeroin.dat vzeroin.dat.vax zeroin.c ----------------------------------------------------------- for Preconditioned Conjugate Gradient path: /netlib/c/dcg/ ----------------------------------------------------------- READ.ME dbatimes.c dblas.c dbmsolve.c dcg.c dcg.h dcgdrv.c dcgutil.c makefile ----------------------------------------------------------- for high level vector operations. Involves the path: /netlib/c/hl_vector/ ----------------------------------------------------------- ali.c hjmin.c valin.c valin.dat valin.dat.vax valis.c valis.dat valis.dat.vax vhjmin.c vhjmin.dat vhjmin.dat.vax ----------------------------------------------------------- by David E. Stewart des@thrain.anu.edu.au path: /netlib/c/meschach/ ----------------------------------------------------------- .depend meschach0/ for housekeeping routines + utility stuff size 429 kB meschach1/ for basic dense linear algebra meschach2/ for dense factorisations meschach3/ for sparse matrix operations meschach4/ for complex matrix operations oldmeschach/ rcs_logs readme ----------------------------------------------------------- for housekeeping routines + utility stuff path: /netlib/c/meschach/meschach0/ ----------------------------------------------------------- DOC/ FILELIST MACHINES/ README configure.in copyright dmacheps.c err.h extras.c fmacheps.c iotort.c iter.h itertort.c ls.dat machine.h machine.h.in makefile makefile.in matlab.h matrix.h matrix2.h maxint.c meminfo.h memtort.c mfuntort.c oldnames.h rk4.dat sparse.h sparse2.h sptort.c torture.c tutadv.c tutorial.c zmatrix.h zmatrix2.h ztorture.c ----------------------------------------------------------- path: /netlib/c/meschach/meschach0/DOC/ ----------------------------------------------------------- fnindex.txt tutorial.txt ----------------------------------------------------------- path: /netlib/c/meschach/meschach0/MACHINES/ ----------------------------------------------------------- Cray/ GCC/ Linux/ RS6000/ SGI/ SPARC/ ----------------------------------------------------------- path: /netlib/c/meschach/meschach0/MACHINES/Cray/ ----------------------------------------------------------- machine.h makefile patch.1 patch.2 patch.3 ----------------------------------------------------------- path: /netlib/c/meschach/meschach0/MACHINES/GCC/ ----------------------------------------------------------- machine.h makefile ----------------------------------------------------------- path: /netlib/c/meschach/meschach0/MACHINES/Linux/ ----------------------------------------------------------- machine.h makefile ----------------------------------------------------------- path: /netlib/c/meschach/meschach0/MACHINES/RS6000/ ----------------------------------------------------------- machine.c machine.h makefile ----------------------------------------------------------- path: /netlib/c/meschach/meschach0/MACHINES/SGI/ ----------------------------------------------------------- machine.h makefile ----------------------------------------------------------- path: /netlib/c/meschach/meschach0/MACHINES/SPARC/ ----------------------------------------------------------- machine.h makefile ----------------------------------------------------------- for basic dense linear algebra path: /netlib/c/meschach/meschach1/ ----------------------------------------------------------- copy.c err.c init.c ivecop.c machine.c matlab.c matop.c matrixio.c meminfo.c memory.c memstat.c otherio.c pxop.c submat.c vecop.c version.c ----------------------------------------------------------- for dense factorisations path: /netlib/c/meschach/meschach2/ ----------------------------------------------------------- bdfactor.c bkpfacto.c chfactor.c fft.c givens.c hessen.c hsehldr.c lufactor.c mfunc.c norm.c qrfactor.c schur.c solve.c svd.c symmeig.c update.c ----------------------------------------------------------- for sparse matrix operations path: /netlib/c/meschach/meschach3/ ----------------------------------------------------------- iter0.c iternsym.c itersym.c sparse.c sparseio.c spbkp.c spchfctr.c splufctr.c sprow.c spswap.c ----------------------------------------------------------- for complex matrix operations path: /netlib/c/meschach/meschach4/ ----------------------------------------------------------- zcopy.c zfunc.c zgivens.c zhessen.c zhsehldr.c zlufctr.c zmachine.c zmatio.c zmatlab.c zmatop.c zmemory.c znorm.c zqrfctr.c zschur.c zsolve.c zvecop.c ----------------------------------------------------------- path: /netlib/c/meschach/oldmeschach/ ----------------------------------------------------------- arnoldi.c conjgrad.c lanczos.c ----------------------------------------------------------- for numerical programming in C path: /netlib/c/serv/ ----------------------------------------------------------- assert.h epsilon.c epsilon.dat math.h servio.c servmath.c stdio.h vservmath.c vservmath.dat ----------------------------------------------------------- for LINPACK functions SGECO/SGEFA/SGESL (dense path: /netlib/c/sge/ ----------------------------------------------------------- READ.ME blas.c ge.h makefile sample.c sample.out sgeco.c sgefa.c sgesl.c ----------------------------------------------------------- path: /netlib/c/sgefa/ ----------------------------------------------------------- READ.ME blas.c driver.c ge.h makefile sgefa.c sgefat.out sgesl.c ----------------------------------------------------------- for Builder for the .shar archive. path: /netlib/c/shar/ ----------------------------------------------------------- shar.c ----------------------------------------------------------- for Resource facility, or managing global "private" path: /netlib/c/task_env/ ----------------------------------------------------------- task_env.c task_env.h ----------------------------------------------------------- for Low and Intermediate Level functions to manage path: /netlib/c/vector/ ----------------------------------------------------------- vec_base.c vec_norm.c vec_serv.c vector.h vvector.c vvector.dat ----------------------------------------------------------- for DOE Computer Hardware, Advanced Mathematics and path: /netlib/chammp/ ----------------------------------------------------------- # chammp # ====== # # This directory contains items relating to the numerical solution # of the shallow water equations in spherical geometry. # The shallow water equations are used as a kernel for both # oceanic and atomospheric general circulation models and # are of interest in evaluating numerical methods for weather # forecasting and climate modeling. The DOE Computer Hardware, # Advanced Mathematics and Model Physics (CHAMMP) program # is interested in the development of new mathematical methods # for these problems. To promote this developmet, a set of # test cases has been proposed and example software and reference # solutions are provided. # Email users trying to retrieve the .Z files -- please retrieve # the .uu versions of those files. shallow.tex # LaTeX document containing benchmarks and results pertaining to shallow water equation solution methods. To retrieve from netlib type: "send shallow.tex from chammp" Last updated: 10/1/93 shallow.bib # LaTeX bibliography file of articles and reports dealing with the test cases. To retrieve from netlib type: "send shallow.bib from chammp" Last updated: 10/1/93 stswm/ # NCAR spectral transform shallow water model and documentation. This code computes reference solutions for all test cases in Williamson et. al., JCP Vol 102, p. 211-224 (1992). Authors J.J. Hack and R. Jakob [Reference solutions generated by this code are available by anonymous ftp from ftp.ucar.edu (IP address 128.117.64.4) in directory chammp/shallow.] To retrieve from netlib type: "send stswm.tar.z.uu from chammp" Last updated: 10/1/93 pstswm/ # Parallel version of stswm for message passing parallel computers. Contains a variety of parallel algorithms implementing the spectral transform method. Code useful for comparison of parallel algorithms: transpose vs. transform, overlapped vs. nonoverlapped communication, etc. Uses PICL for portability. Authors: P.H. Worley and I.T. Foster To retrieve from netlib type: "send pstswm.tar.z.uu from chammp" Last updated: 10/1/93 ----------------------------------------------------------- # Parallel version of stswm for message passing path: /netlib/chammp/pstswm/ ----------------------------------------------------------- pstswm.v1/ ----------------------------------------------------------- path: /netlib/chammp/pstswm/pstswm.v1/ ----------------------------------------------------------- advect.f alginp.f algorithm.i anlytc.f bubfnc.i calp.f comp1.f consts.i denormal.f denormal860.c diffuse.f dpupim.f dzpuv.f dzsc.f epslon.f erranl.f exchsum.f explic.f finit.i fltsum.f force.f fourier.i frfft.f ftdpev.f ftdpiv.f ftrnpe.f glats.f globalgrid.f globalops.f halfsum.f iltcast.f init.f input/ input.f irfft.f itrnpe.f lib/ log2.f logtrans.f machine.i makefile.ipsc860 makefile.paragon map.f msgbase.f nonladv.f nonlex.f nonlim.f nrgtcs.f params.i parrft.f physical.i prbinp.f problem.i psc.f pstswm.f rftfax.f rftlon.f ringsum.f rotate.f sendrecv.f shiftcast.f shiftsum.f shtrns.f simplic.f spcanl.f spectral.i speed.f srtrans.f step.f swap.f swaptrans.f tdvars.i tdvmod.f timing.f timing.i tracing.i transpose.f treesum.f trnsfm.i wrkspc.i ----------------------------------------------------------- path: /netlib/chammp/pstswm/pstswm.v1/input/ ----------------------------------------------------------- algorithm pinp42.0001 pinp42.0002 pinp42.0003 pinp42.0004 pinp42.0005 pinp42.0006 problem ----------------------------------------------------------- path: /netlib/chammp/pstswm/pstswm.v1/lib/ ----------------------------------------------------------- adquad.f dclock.c picl.f ----------------------------------------------------------- # NCAR spectral transform shallow water model and path: /netlib/chammp/stswm/ ----------------------------------------------------------- README docu/ lib/ src/ test1/ test2/ test3/ test4/ test5/ test6/ test7/ ----------------------------------------------------------- path: /netlib/chammp/stswm/docu/ ----------------------------------------------------------- description.txt ----------------------------------------------------------- path: /netlib/chammp/stswm/lib/ ----------------------------------------------------------- README adquad.f fft99f.f ncarg.f netcdf.f ----------------------------------------------------------- path: /netlib/chammp/stswm/src/ ----------------------------------------------------------- advect.f agpwrt.f anlytc.f bf2.f bubfnc.f calp.f case4.i ceps.f comp1.f complt.i consts.i cpcnrc.f cpmpxy.f cpmvxy.f d2bubf.f dbubf.f dcalp.f dceps.f dft991.f dftfax.f drawcl.f dtrns.f duv.f epslon.f erranl.f eval.f finit.i force.f ftrnde.f ftrndi.f ftrnex.f ftrnim.f ftrnpe.f ftrnpi.f ftrnve.f fu.f func2.f glat.f glats.f glon.f infld.f init.f inptp.f input.f labtop.f makefile netcdf.inc nrgtcs.f ordleg.f ortho.f outptp.f params.i plots.f prnt.f rotate.f shader.f shtrns.f spcanl.f step.f stswm.f tdvars.i trnsfm.i us.f uv.f velvct.f weight.f wrkspc.i zd.f ----------------------------------------------------------- path: /netlib/chammp/stswm/test1/ ----------------------------------------------------------- README cray.sh exp.0001 stderr.0001 stdout.0001 sun.sh ----------------------------------------------------------- path: /netlib/chammp/stswm/test2/ ----------------------------------------------------------- README cray.sh exp.0002 stderr.0002 stdout.0002 sun.sh ----------------------------------------------------------- path: /netlib/chammp/stswm/test3/ ----------------------------------------------------------- README cray.sh exp.0003 stderr.0003 stdout.0003 sun.sh ----------------------------------------------------------- path: /netlib/chammp/stswm/test4/ ----------------------------------------------------------- README cray.sh exp.0004 stderr.0004 stdout.0004 sun.sh ----------------------------------------------------------- path: /netlib/chammp/stswm/test5/ ----------------------------------------------------------- README cray.sh exp.0005 stderr.0005 stdout.0005 sun.sh ----------------------------------------------------------- path: /netlib/chammp/stswm/test6/ ----------------------------------------------------------- README cray.sh exp.0006 stderr.0006 stdout.0006 sun.sh ----------------------------------------------------------- path: /netlib/chammp/stswm/test7/ ----------------------------------------------------------- README cray.sh exp.0007 stderr.0007 stdout.0007 sun.sh ----------------------------------------------------------- by Ward Cheney & David Kincaid path: /netlib/cheney-kincaid/ ----------------------------------------------------------- .depend pi.f ref text 4 for Simple code to illustrate programming in double precision exp.f ref text 11-12 for First programming experiment xsinx.f ref text 63-65 for Example of programming f(x) = x - sin(x) carefully (F) bisect1.f ref text 77-78 for First version of Bisection method (BISECT,F,G) bisect2.f ref text 77-78 for Second version of Bisection method (BISECT,F,G) newton.f ref text 85-86 for Sample Newton method program coef.f ref text 117-118 for Newton interpolation polynomial for sin(x) at equidistant points (COEF,EVAL) deriv.f ref text 141-142 for Derivative by center differences and Richardson extrapolation (DERIV,F) ulsum.f ref text 155-156 for Upper and lower sums programming experiment for an integral trap.f ref text 161 for Trapezoid rule programming experiment for an integral rombrg.f ref text 173-174 for Romberg arrays for three separate functions (ROMBRG,F,G,P) simp.f ref text 187-190 for Adaptive scheme for Simpson's rule (SIMP,ASMP,PUSH,POP,FCN) ngauss.f ref text 208-209 for Naive Gaussian elimination to solve linear systems (NGAUSS) gauss.f ref text 220-223 for Gaussian elimination with scaled partial pivoting (GAUSS,SOLVE,TSTGAUS) triqnt.f ref text 233-236 for Solves tridiagonal & pentadiagonal linear systems (TRI,PENTA) spl1.f ref text 261 for Interpolates table using a first-degree spline function (SPL1) spl3.f ref text 277-278 for Natural cubic spline function for sin(x) at equidistant points (SPL3,ZSPL3) aspl2.f ref text 297-298 for Interpolates table using a quadratic B-spline function (ASPL2,BSPL2) sch.f ref text 300 for Interpolates table using Schoenberg's process (SCH,ESCH,F) euler.f ref text 306-307 for Euler's method for solving an ordinary differential equation taylor.f ref text 307-308 for Taylor series method (order 4) for solving an ordinary differential equation rk4.f ref text 315-316 for Runge-Kutta method of order 4 for solving an initial value problem (RK4,F) rk45.f ref text 326 for Runge-Kutta-Fehlberg method for solving an initial value problem (RK45,F) rk45ad.f ref text 326-328 for Adaptive scheme based on Runge-Kutta-Fehlberg method (RK45AD,RK45,F) random.f ref text 337 for Example to compute, store, and print random numbers (RANDOM) testra.f ref text 338 for Coarse check on the random-number generator (RANDOM) mctst1.f ref text 347 for Volume of a complicated region in three-space by Monte Carlo (RANDOM) mctst2.f ref text 345-346 for Numerical value of integral over a disk in xy-space by Monte Carlo (RANDOM) cone.f ref text 348 for Ice cream cone example (RANDOM) sim1.f ref text 351-352 for Loaded die problem simulation (RANDOM) brthdy.f ref text 352-354 for Birthday problem simulation (PROB,BRTHDY,RANDOM) sim2.f ref text 354-355 for Buffon's needle problem simulation (RANDOM) sim3.f ref text 355-356 for Two dice problem simulation (RANDOM) sim4.f ref text 356-358 for Neutron shielding problem simulation (RANDOM) taysys.f ref text 393 for Taylor series method (order 4) for system of ordinary differential equations rk4sys.f ref text 394-396 for Runge-Kutta method of order 4 for a system of ode's (RK4SYS,XPSYS) amrk.f ref text 406-408 for Adams-Moulton method for systems of ode's (AMRK,RKSYS,AMSYS,XPSYS) amrkad.f ref text 408-409 for Adaptive scheme for Adams-Moulton method for systems of ode's (AMRKAD,XPSYS,AMSYS,AMRK,RKSYS) bvp1.f ref text 418-420 for Boundary value problem solved by discretization technique (TRI) bvp2.f ref text 421-423 for Boundary value problem solved by shooting method (RK4SYS,XPSYS) pde1.f ref text 433 for Parabolic partial differential equation problem pde2.f ref text 434 for Parabolic pde problem solved by Crank-Nicolson method (TRI) string.f ref text 441-442 for Hyperbolic pde problem solved by discretization (F,TRUE) seidel.f ref text 449-451 for Elliptic pde solved by discretization and Gauss-Seidel method (SEIDEL,F,G,BNDY,USTART,TRUE) info-code.tex for TeX file with general code information info-code.tty for text file with general code information makefile ----------------------------------------------------------- for C version of LAPACK path: /netlib/clapack/ ----------------------------------------------------------- ############################################################################ # PLEASE NOTE: # # # # THE CBLAS ARE NOT PROVIDED BY NETLIB WHEN CLAPACK ROUTINES ARE REQUESTED.# # # # It is assumed that an optimized version of the BLAS are already # # present on your machine. If this is not the case, please refer # # to the clapack/cblas directory. # ############################################################################ readme for overview of clapack clapack/ for (FOR NON EMAIL USERS ONLY) This is the COMPLETE package (installation, testing, and timing) in tar gzip form (5206025 bytes). This cannot be retrieved via email. Updated: September 30, 1994 (LAPACK, version 2.0) by Jim Demmel (demmel@cs.berkeley.edu) & Xiaoye Li (xiaoye@cs.berkeley.edu) testing/ for (FOR NON EMAIL USERS ONLY) This is a gzip tar file of the testing directory (1762774 bytes). REQUIRES f2clibs.tar.z, so MUST download this tar file too. This cannot be retrieved via email. timing/ for (FOR NON EMAIL USERS ONLY) This is a gzip tar file of the timing directory (933866 bytes). REQUIRES f2clibs.tar.z, so MUST download this tar file too. This cannot be retrieved via email. f2clibs/ for (FOR NON EMAIL USERS ONLY) Required by the library and testing/timing routines for I/O and math functions. Included in the tar file of the complete package (62251 bytes). single/ for single precision real CLAPACK routines REQUIRES f2clibs.tar.z, so MUST download this tar file too. prec single double/ for double precision real CLAPACK routines REQUIRES f2clibs.tar.z, so MUST download this tar file too. prec double complex/ for single precision complex CLAPACK routines REQUIRES f2clibs.tar.z, so MUST download this tar file too. prec complex complex16/ for double precision complex CLAPACK routines REQUIRES f2clibs.tar.z, so MUST download this tar file too. prec doublecomplex util/ for CLAPACK utility routines cblas/ for Subdirectory containing f2c'ed BLAS routines. REQUIRES f2clibs.tar.z, so MUST download this tar file too. testing/ for Subdirectory containing the testing routines for clapack. REQUIRES f2clibs.tar.z, so MUST download this tar file too. timing/ for Subdirectory containing the timing routines for clapack. REQUIRES f2clibs.tar.z, so MUST download this tar file too. # For the Fortran 77 implementation of LAPACK see directory lapack # lapack/ for LAPACK. # For a c++ implementation of LAPACK see directory c++/lapack++ # c++/lapack++/ for LAPACK++. LAPACK extensions for high performance linear algebra computations. This version includes support for solving linear systems using LU, Cholesky, and QR matrix factorizations. by Roldan Pozo # For a distributed-memory implementation of LAPACK see directory scalapack # scalapack/ for ScaLAPACK. A portable implementation of some of the core routines in LAPACK across PVM, Intel machines, CM-5, and IBM SPs. # ******************* # Questions/comments? Direct email to lapack@cs.utk.edu # ******************* ----------------------------------------------------------- for Subdirectory containing f2c'ed BLAS routines. path: /netlib/clapack/cblas/ ----------------------------------------------------------- .depend caxpy.c ccopy.c cdotc.c cdotu.c cgbmv.c cgemm.c cgemv.c cgerc.c cgeru.c chbmv.c chemm.c chemv.c cher.c cher2.c cher2k.c cherk.c chpmv.c chpr.c chpr2.c crotg.c cscal.c csscal.c cswap.c csymm.c csyr2k.c csyrk.c ctbmv.c ctbsv.c ctpmv.c ctpsv.c ctrmm.c ctrmv.c ctrsm.c ctrsv.c dasum.c daxpy.c dcabs1.c dcopy.c ddot.c dgbmv.c dgemm.c dgemv.c dger.c dnrm2.c drot.c drotg.c dsbmv.c dscal.c dspmv.c dspr.c dspr2.c dswap.c dsymm.c dsymv.c dsyr.c dsyr2.c dsyr2k.c dsyrk.c dtbmv.c dtbsv.c dtpmv.c dtpsv.c dtrmm.c dtrmv.c dtrsm.c dtrsv.c dzasum.c dznrm2.c icamax.c idamax.c isamax.c izamax.c lsame.c sasum.c saxpy.c scasum.c scnrm2.c scopy.c sdot.c sgbmv.c sgemm.c sgemv.c sger.c snrm2.c srot.c srotg.c ssbmv.c sscal.c sspmv.c sspr.c sspr2.c sswap.c ssymm.c ssymv.c ssyr.c ssyr2.c ssyr2k.c ssyrk.c stbmv.c stbsv.c stpmv.c stpsv.c strmm.c strmv.c strsm.c strsv.c xerbla.c zaxpy.c zcopy.c zdotc.c zdotu.c zdscal.c zgbmv.c zgemm.c zgemv.c zgerc.c zgeru.c zhbmv.c zhemm.c zhemv.c zher.c zher2.c zher2k.c zherk.c zhpmv.c zhpr.c zhpr2.c zrotg.c zscal.c zswap.c zsymm.c zsyr2k.c zsyrk.c ztbmv.c ztbsv.c ztpmv.c ztpsv.c ztrmm.c ztrmv.c ztrsm.c ztrsv.c ----------------------------------------------------------- for (FOR NON EMAIL USERS ONLY) This is the COMPLETE path: /netlib/clapack/clapack/ ----------------------------------------------------------- CLAPACK/ ----------------------------------------------------------- path: /netlib/clapack/clapack/CLAPACK/ ----------------------------------------------------------- BLAS/ F2CLIBS/ INSTALL/ Makefile README SRC/ TESTING/ TIMING/ Translate/ make.inc ----------------------------------------------------------- path: /netlib/clapack/clapack/CLAPACK/BLAS/ ----------------------------------------------------------- SRC/ TESTING/ cblat2.in cblat3.in dblat2.in dblat3.in sblat2.in sblat3.in zblat2.in zblat3.in ----------------------------------------------------------- path: /netlib/clapack/clapack/CLAPACK/BLAS/SRC/ ----------------------------------------------------------- #Makefile# Makefile caxpy.c ccopy.c cdotc.c cdotu.c cgbmv.c cgemm.c cgemv.c cgerc.c cgeru.c chbmv.c chemm.c chemv.c cher.c cher2.c cher2k.c cherk.c chpmv.c chpr.c chpr2.c crotg.c cscal.c csscal.c cswap.c csymm.c csyr2k.c csyrk.c ctbmv.c ctbsv.c ctpmv.c ctpsv.c ctrmm.c ctrmv.c ctrsm.c ctrsv.c dasum.c daxpy.c dcabs1.c dcopy.c ddot.c dgbmv.c dgemm.c dgemv.c dger.c dnrm2.c drot.c drotg.c dsbmv.c dscal.c dspmv.c dspr.c dspr2.c dswap.c dsymm.c dsymv.c dsyr.c dsyr2.c dsyr2k.c dsyrk.c dtbmv.c dtbsv.c dtpmv.c dtpsv.c dtrmm.c dtrmv.c dtrsm.c dtrsv.c dzasum.c dznrm2.c f2c.h icamax.c icamax.u idamax.c isamax.c izamax.c lsame.c sasum.c saxpy.c scasum.c scnrm2.c scopy.c sdot.c sgbmv.c sgemm.c sgemv.c sger.c snrm2.c srot.c srotg.c ssbmv.c sscal.c sspmv.c sspr.c sspr2.c sswap.c ssymm.c ssymv.c ssyr.c ssyr2.c ssyr2k.c ssyrk.c stbmv.c stbsv.c stpmv.c stpsv.c strmm.c strmv.c strsm.c strsv.c xerbla.c zaxpy.c zcopy.c zdotc.c zdotu.c zdscal.c zgbmv.c zgemm.c zgemv.c zgerc.c zgeru.c zhbmv.c zhemm.c zhemv.c zher.c zher2.c zher2k.c zherk.c zhpmv.c zhpr.c zhpr2.c zrotg.c zscal.c zswap.c zsymm.c zsyr2k.c zsyrk.c ztbmv.c ztbsv.c ztpmv.c ztpsv.c ztrmm.c ztrmv.c ztrsm.c ztrsv.c ----------------------------------------------------------- path: /netlib/clapack/clapack/CLAPACK/BLAS/TESTING/ ----------------------------------------------------------- Makeblat1 Makeblat2 Makeblat3 cblat1.c cblat2.c cblat3.c dblat1.c dblat2.c dblat3.c f2c.h sblat1.c sblat2.c sblat3.c zblat1.c zblat2.c zblat3.c ----------------------------------------------------------- path: /netlib/clapack/clapack/CLAPACK/F2CLIBS/ ----------------------------------------------------------- f2c.h libF77/ libI77/ ----------------------------------------------------------- path: /netlib/clapack/clapack/CLAPACK/F2CLIBS/libF77/ ----------------------------------------------------------- Notice README Version.c abort_.c c_abs.c c_cos.c c_div.c c_exp.c c_log.c c_sin.c c_sqrt.c cabs.c d_abs.c d_acos.c d_asin.c d_atan.c d_atn2.c d_cnjg.c d_cos.c d_cosh.c d_dim.c d_exp.c d_imag.c d_int.c d_lg10.c d_log.c d_mod.c d_nint.c d_prod.c d_sign.c d_sin.c d_sinh.c d_sqrt.c d_tan.c d_tanh.c derf_.c derfc_.c ef1asc_.c ef1cmc_.c erf_.c erfc_.c f2c.h f2ch.add getarg_.c getenv_.c h_abs.c h_dim.c h_dnnt.c h_indx.c h_len.c h_mod.c h_nint.c h_sign.c hl_ge.c hl_gt.c hl_le.c hl_lt.c i_abs.c i_dim.c i_dnnt.c i_indx.c i_len.c i_mod.c i_nint.c i_sign.c iargc_.c l_ge.c l_gt.c l_le.c l_lt.c libF77.xsum main.c makefile pow_ci.c pow_dd.c pow_di.c pow_hh.c pow_ii.c pow_qq.c pow_ri.c pow_zi.c pow_zz.c r_abs.c r_acos.c r_asin.c r_atan.c r_atn2.c r_cnjg.c r_cos.c r_cosh.c r_dim.c r_exp.c r_imag.c r_int.c r_lg10.c r_log.c r_mod.c r_nint.c r_sign.c r_sin.c r_sinh.c r_sqrt.c r_tan.c r_tanh.c s_cat.c s_cmp.c s_copy.c s_paus.c s_rnge.c s_stop.c sig_die.c signal_.c system_.c z_abs.c z_cos.c z_div.c z_exp.c z_log.c z_sin.c z_sqrt.c ----------------------------------------------------------- path: /netlib/clapack/clapack/CLAPACK/F2CLIBS/libI77/ ----------------------------------------------------------- Notice README Version.c backspace.c close.c dfe.c dolio.c due.c endfile.c err.c f2c.h f2ch.add fio.h fmt.c fmt.h fmtlib.c fp.h iio.c ilnw.c inquire.c libI77.xsum lio.h lread.c lwrite.c makefile open.c rawio.h rdfmt.c rewind.c rsfe.c rsli.c rsne.c sfe.c sue.c typesize.c uio.c util.c wref.c wrtfmt.c wsfe.c wsle.c wsne.c xwsne.c ----------------------------------------------------------- path: /netlib/clapack/clapack/CLAPACK/INSTALL/ ----------------------------------------------------------- Makefile dlamch.c dlamchtst.c dsecnd.c dsecndtst.c f2c.h lawn81.ps lawn81.tex lsame.c lsametst.c org2.ps psfig.tex second.c secondtst.c slamch.c slamchtst.c ----------------------------------------------------------- path: /netlib/clapack/clapack/CLAPACK/SRC/ ----------------------------------------------------------- Makefile cbdsqr.c cgbbrd.c cgbcon.c cgbequ.c cgbrfs.c cgbsv.c cgbsvx.c cgbtf2.c cgbtrf.c cgbtrs.c cgebak.c cgebal.c cgebd2.c cgebrd.c cgecon.c cgeequ.c cgees.c cgeesx.c cgeev.c cgeevx.c cgegs.c cgegv.c cgehd2.c cgehrd.c cgelq2.c cgelqf.c cgels.c cgelss.c cgelsx.c cgeql2.c cgeqlf.c cgeqpf.c cgeqr2.c cgeqrf.c cgerfs.c cgerq2.c cgerqf.c cgesv.c cgesvd.c cgesvx.c cgetf2.c cgetrf.c cgetri.c cgetrs.c cggbak.c cggbal.c cggglm.c cgghrd.c cgglse.c cggqrf.c cggrqf.c cggsvd.c cggsvp.c cgtcon.c cgtrfs.c cgtsv.c cgtsvx.c cgttrf.c cgttrs.c chbev.c chbevd.c chbevx.c chbgst.c chbgv.c chbtrd.c checon.c cheev.c cheevd.c cheevx.c chegs2.c chegst.c chegv.c cherfs.c chesv.c chesvx.c chetd2.c chetf2.c chetrd.c chetrf.c chetri.c chetrs.c chgeqz.c chpcon.c chpev.c chpevd.c chpevx.c chpgst.c chpgv.c chprfs.c chpsv.c chpsvx.c chptrd.c chptrf.c chptri.c chptrs.c chsein.c chseqr.c clabrd.c clacgv.c clacon.c clacpy.c clacrm.c clacrt.c cladiv.c claed0.c claed7.c claed8.c claein.c claesy.c claev2.c clags2.c clagtm.c clahef.c clahqr.c clahrd.c claic1.c clangb.c clange.c clangt.c clanhb.c clanhe.c clanhp.c clanhs.c clanht.c clansb.c clansp.c clansy.c clantb.c clantp.c clantr.c clapll.c clapmt.c claqgb.c claqge.c claqhb.c claqhe.c claqhp.c claqsb.c claqsp.c claqsy.c clar2v.c clarf.c clarfb.c clarfg.c clarft.c clarfx.c clargv.c clarnv.c clartg.c clartv.c clascl.c claset.c clasr.c classq.c claswp.c clasyf.c clatbs.c clatps.c clatrd.c clatrs.c clatzm.c clauu2.c clauum.c cpbcon.c cpbequ.c cpbrfs.c cpbstf.c cpbsv.c cpbsvx.c cpbtf2.c cpbtrf.c cpbtrs.c cpocon.c cpoequ.c cporfs.c cposv.c cposvx.c cpotf2.c cpotrf.c cpotri.c cpotrs.c cppcon.c cppequ.c cpprfs.c cppsv.c cppsvx.c cpptrf.c cpptri.c cpptrs.c cptcon.c cpteqr.c cptrfs.c cptsv.c cptsvx.c cpttrf.c cpttrs.c crot.c cspcon.c cspmv.c cspr.c csprfs.c cspsv.c cspsvx.c csptrf.c csptri.c csptrs.c csrot.c csrscl.c cstedc.c cstein.c csteqr.c csycon.c csymv.c csyr.c csyrfs.c csysv.c csysvx.c csytf2.c csytrf.c csytri.c csytrs.c ctbcon.c ctbrfs.c ctbtrs.c ctgevc.c ctgsja.c ctpcon.c ctprfs.c ctptri.c ctptrs.c ctrcon.c ctrevc.c ctrexc.c ctrrfs.c ctrsen.c ctrsna.c ctrsyl.c ctrti2.c ctrtri.c ctrtrs.c ctzrqf.c cung2l.c cung2r.c cungbr.c cunghr.c cungl2.c cunglq.c cungql.c cungqr.c cungr2.c cungrq.c cungtr.c cunm2l.c cunm2r.c cunmbr.c cunmhr.c cunml2.c cunmlq.c cunmql.c cunmqr.c cunmr2.c cunmrq.c cunmtr.c cupgtr.c cupmtr.c dbdsqr.c ddisna.c dgbbrd.c dgbcon.c dgbequ.c dgbrfs.c dgbsv.c dgbsvx.c dgbtf2.c dgbtrf.c dgbtrs.c dgebak.c dgebal.c dgebd2.c dgebrd.c dgecon.c dgeequ.c dgees.c dgeesx.c dgeev.c dgeevx.c dgegs.c dgegv.c dgehd2.c dgehrd.c dgelq2.c dgelqf.c dgels.c dgelss.c dgelsx.c dgeql2.c dgeqlf.c dgeqpf.c dgeqr2.c dgeqrf.c dgerfs.c dgerq2.c dgerqf.c dgesv.c dgesvd.c dgesvx.c dgetf2.c dgetrf.c dgetri.c dgetrs.c dggbak.c dggbal.c dggglm.c dgghrd.c dgglse.c dggqrf.c dggrqf.c dggsvd.c dggsvp.c dgtcon.c dgtrfs.c dgtsv.c dgtsvx.c dgttrf.c dgttrs.c dhgeqz.c dhsein.c dhseqr.c dlabad.c dlabrd.c dlacon.c dlacpy.c dladiv.c dlae2.c dlaebz.c dlaed0.c dlaed1.c dlaed2.c dlaed3.c dlaed4.c dlaed5.c dlaed6.c dlaed7.c dlaed8.c dlaed9.c dlaeda.c dlaein.c dlaev2.c dlaexc.c dlag2.c dlags2.c dlagtf.c dlagtm.c dlagts.c dlahqr.c dlahrd.c dlaic1.c dlaln2.c dlamch.c dlamrg.c dlangb.c dlange.c dlangt.c dlanhs.c dlansb.c dlansp.c dlanst.c dlansy.c dlantb.c dlantp.c dlantr.c dlanv2.c dlapll.c dlapmt.c dlapy2.c dlapy3.c dlaqgb.c dlaqge.c dlaqsb.c dlaqsp.c dlaqsy.c dlaqtr.c dlar2v.c dlarf.c dlarfb.c dlarfg.c dlarft.c dlarfx.c dlargv.c dlarnv.c dlartg.c dlartv.c dlaruv.c dlas2.c dlascl.c dlaset.c dlasq1.c dlasq2.c dlasq3.c dlasq4.c dlasr.c dlasrt.c dlassq.c dlasv2.c dlaswp.c dlasy2.c dlasyf.c dlatbs.c dlatps.c dlatrd.c dlatrs.c dlatzm.c dlauu2.c dlauum.c dopgtr.c dopmtr.c dorg2l.c dorg2r.c dorgbr.c dorghr.c dorgl2.c dorglq.c dorgql.c dorgqr.c dorgr2.c dorgrq.c dorgtr.c dorm2l.c dorm2r.c dormbr.c dormhr.c dorml2.c dormlq.c dormql.c dormqr.c dormr2.c dormrq.c dormtr.c dpbcon.c dpbequ.c dpbrfs.c dpbstf.c dpbsv.c dpbsvx.c dpbtf2.c dpbtrf.c dpbtrs.c dpocon.c dpoequ.c dporfs.c dposv.c dposvx.c dpotf2.c dpotrf.c dpotri.c dpotrs.c dppcon.c dppequ.c dpprfs.c dppsv.c dppsvx.c dpptrf.c dpptri.c dpptrs.c dptcon.c dpteqr.c dptrfs.c dptsv.c dptsvx.c dpttrf.c dpttrs.c drscl.c dsbev.c dsbevd.c dsbevx.c dsbgst.c dsbgv.c dsbtrd.c dsecnd.c dspcon.c dspev.c dspevd.c dspevx.c dspgst.c dspgv.c dsprfs.c dspsv.c dspsvx.c dsptrd.c dsptrf.c dsptri.c dsptrs.c dstebz.c dstedc.c dstein.c dsteqr.c dsterf.c dstev.c dstevd.c dstevx.c dsycon.c dsyev.c dsyevd.c dsyevx.c dsygs2.c dsygst.c dsygv.c dsyrfs.c dsysv.c dsysvx.c dsytd2.c dsytf2.c dsytrd.c dsytrf.c dsytri.c dsytrs.c dtbcon.c dtbrfs.c dtbtrs.c dtgevc.c dtgsja.c dtpcon.c dtprfs.c dtptri.c dtptrs.c dtrcon.c dtrevc.c dtrexc.c dtrrfs.c dtrsen.c dtrsna.c dtrsyl.c dtrti2.c dtrtri.c dtrtrs.c dtzrqf.c dzsum1.c f2c.h icmax1.c ilaenv.c izmax1.c lsame.c lsamen.c lsamen.u sbdsqr.c scsum1.c sdisna.c second.c sgbbrd.c sgbcon.c sgbequ.c sgbrfs.c sgbsv.c sgbsvx.c sgbtf2.c sgbtrf.c sgbtrs.c sgebak.c sgebal.c sgebd2.c sgebrd.c sgecon.c sgeequ.c sgees.c sgeesx.c sgeev.c sgeevx.c sgegs.c sgegv.c sgehd2.c sgehrd.c sgelq2.c sgelqf.c sgels.c sgelss.c sgelsx.c sgeql2.c sgeqlf.c sgeqpf.c sgeqr2.c sgeqrf.c sgerfs.c sgerq2.c sgerqf.c sgesv.c sgesvd.c sgesvx.c sgetf2.c sgetrf.c sgetri.c sgetrs.c sggbak.c sggbal.c sggglm.c sgghrd.c sgglse.c sggqrf.c sggrqf.c sggsvd.c sggsvp.c sgtcon.c sgtrfs.c sgtsv.c sgtsvx.c sgttrf.c sgttrs.c shgeqz.c shsein.c shseqr.c slabad.c slabrd.c slacon.c slacpy.c sladiv.c slae2.c slaebz.c slaed0.c slaed1.c slaed2.c slaed3.c slaed4.c slaed5.c slaed6.c slaed7.c slaed8.c slaed9.c slaeda.c slaein.c slaev2.c slaexc.c slag2.c slags2.c slagtf.c slagtm.c slagts.c slahqr.c slahqr.u slahrd.c slaic1.c slaln2.c slamch.c slamrg.c slangb.c slange.c slangt.c slanhs.c slansb.c slansp.c slanst.c slansy.c slantb.c slantp.c slantr.c slanv2.c slapll.c slapmt.c slapy2.c slapy3.c slaqgb.c slaqge.c slaqsb.c slaqsp.c slaqsy.c slaqtr.c slar2v.c slarf.c slarfb.c slarfg.c slarft.c slarfx.c slargv.c slarnv.c slartg.c slartv.c slaruv.c slas2.c slascl.c slaset.c slasq1.c slasq2.c slasq3.c slasq4.c slasr.c slasrt.c slassq.c slasv2.c slaswp.c slasy2.c slasyf.c slatbs.c slatps.c slatrd.c slatrs.c slatzm.c slauu2.c slauum.c sopgtr.c sopmtr.c sorg2l.c sorg2r.c sorgbr.c sorghr.c sorgl2.c sorglq.c sorgql.c sorgqr.c sorgr2.c sorgrq.c sorgtr.c sorm2l.c sorm2r.c sormbr.c sormhr.c sorml2.c sormlq.c sormql.c sormqr.c sormr2.c sormrq.c sormtr.c spbcon.c spbequ.c spbrfs.c spbstf.c spbsv.c spbsvx.c spbtf2.c spbtrf.c spbtrs.c spocon.c spoequ.c sporfs.c sposv.c sposvx.c spotf2.c spotrf.c spotri.c spotrs.c sppcon.c sppequ.c spprfs.c sppsv.c sppsvx.c spptrf.c spptri.c spptrs.c sptcon.c spteqr.c sptrfs.c sptsv.c sptsvx.c spttrf.c spttrs.c srscl.c ssbev.c ssbevd.c ssbevx.c ssbgst.c ssbgv.c ssbtrd.c sspcon.c sspev.c sspevd.c sspevx.c sspgst.c sspgv.c ssprfs.c sspsv.c sspsvx.c ssptrd.c ssptrf.c ssptri.c ssptrs.c sstebz.c sstedc.c sstein.c ssteqr.c ssterf.c sstev.c sstevd.c sstevx.c ssycon.c ssyev.c ssyevd.c ssyevx.c ssygs2.c ssygst.c ssygv.c ssyrfs.c ssysv.c ssysvx.c ssytd2.c ssytf2.c ssytrd.c ssytrf.c ssytri.c ssytrs.c stbcon.c stbrfs.c stbtrs.c stgevc.c stgsja.c stpcon.c stprfs.c stptri.c stptrs.c strcon.c strevc.c strexc.c strrfs.c strsen.c strsna.c strsyl.c strti2.c strtri.c strtrs.c stzrqf.c xerbla.c zbdsqr.c zdrot.c zdrscl.c zgbbrd.c zgbcon.c zgbequ.c zgbrfs.c zgbsv.c zgbsvx.c zgbtf2.c zgbtrf.c zgbtrs.c zgebak.c zgebal.c zgebd2.c zgebrd.c zgecon.c zgeequ.c zgees.c zgeesx.c zgeev.c zgeevx.c zgegs.c zgegv.c zgehd2.c zgehrd.c zgelq2.c zgelqf.c zgels.c zgelss.c zgelsx.c zgeql2.c zgeqlf.c zgeqpf.c zgeqr2.c zgeqrf.c zgerfs.c zgerq2.c zgerqf.c zgesv.c zgesvd.c zgesvx.c zgetf2.c zgetrf.c zgetri.c zgetrs.c zggbak.c zggbal.c zggglm.c zgghrd.c zgglse.c zggqrf.c zggrqf.c zggsvd.c zggsvp.c zgtcon.c zgtrfs.c zgtsv.c zgtsvx.c zgttrf.c zgttrs.c zhbev.c zhbevd.c zhbevx.c zhbgst.c zhbgv.c zhbtrd.c zhecon.c zheev.c zheevd.c zheevx.c zhegs2.c zhegst.c zhegv.c zherfs.c zhesv.c zhesvx.c zhetd2.c zhetf2.c zhetrd.c zhetrf.c zhetri.c zhetrs.c zhgeqz.c zhpcon.c zhpev.c zhpevd.c zhpevx.c zhpgst.c zhpgv.c zhprfs.c zhpsv.c zhpsvx.c zhptrd.c zhptrf.c zhptri.c zhptrs.c zhsein.c zhseqr.c zlabrd.c zlacgv.c zlacon.c zlacpy.c zlacrm.c zlacrt.c zladiv.c zlaed0.c zlaed7.c zlaed8.c zlaein.c zlaesy.c zlaev2.c zlags2.c zlagtm.c zlahef.c zlahqr.c zlahrd.c zlaic1.c zlangb.c zlange.c zlangt.c zlanhb.c zlanhe.c zlanhp.c zlanhs.c zlanht.c zlansb.c zlansp.c zlansy.c zlantb.c zlantp.c zlantr.c zlapll.c zlapmt.c zlaqgb.c zlaqge.c zlaqhb.c zlaqhe.c zlaqhp.c zlaqsb.c zlaqsp.c zlaqsy.c zlar2v.c zlarf.c zlarfb.c zlarfg.c zlarft.c zlarfx.c zlargv.c zlarnv.c zlartg.c zlartv.c zlascl.c zlaset.c zlasr.c zlassq.c zlaswp.c zlasyf.c zlatbs.c zlatps.c zlatrd.c zlatrs.c zlatzm.c zlauu2.c zlauum.c zpbcon.c zpbequ.c zpbrfs.c zpbstf.c zpbsv.c zpbsvx.c zpbtf2.c zpbtrf.c zpbtrs.c zpocon.c zpoequ.c zporfs.c zposv.c zposvx.c zpotf2.c zpotrf.c zpotri.c zpotrs.c zppcon.c zppequ.c zpprfs.c zppsv.c zppsvx.c zpptrf.c zpptri.c zpptrs.c zptcon.c zpteqr.c zptrfs.c zptsv.c zptsvx.c zpttrf.c zpttrs.c zrot.c zspcon.c zspmv.c zspr.c zsprfs.c zspsv.c zspsvx.c zsptrf.c zsptri.c zsptrs.c zstedc.c zstein.c zsteqr.c zsycon.c zsymv.c zsyr.c zsyrfs.c zsysv.c zsysvx.c zsytf2.c zsytrf.c zsytri.c zsytrs.c ztbcon.c ztbrfs.c ztbtrs.c ztgevc.c ztgsja.c ztpcon.c ztprfs.c ztptri.c ztptrs.c ztrcon.c ztrevc.c ztrexc.c ztrrfs.c ztrsen.c ztrsna.c ztrsyl.c ztrti2.c ztrtri.c ztrtrs.c ztzrqf.c zung2l.c zung2r.c zungbr.c zunghr.c zungl2.c zunglq.c zungql.c zungqr.c zungr2.c zungrq.c zungtr.c zunm2l.c zunm2r.c zunmbr.c zunmhr.c zunml2.c zunmlq.c zunmql.c zunmqr.c zunmr2.c zunmrq.c zunmtr.c zupgtr.c zupmtr.c ----------------------------------------------------------- path: /netlib/clapack/clapack/CLAPACK/TESTING/ ----------------------------------------------------------- EIG/ LIN/ MATGEN/ Makefile Makefile.sgi cbak.in cbal.in cbb.in cec.in ced.in cgbak.in cgbal.in cgg.in csb.in csg.in ctest.in dbak.in dbal.in dbb.in dec.in ded.in dgbak.in dgbal.in dgg.in dsb.in dsg.in dtest.in glm.in gqr.in gsv.in lse.in nep.in sbak.in sbal.in sbb.in sec.in sed.in sep.in sgbak.in sgbal.in sgg.in ssb.in ssg.in stest.in svd.in zbak.in zbal.in zbb.in zec.in zed.in zgbak.in zgbal.in zgg.in zsb.in zsg.in ztest.in ----------------------------------------------------------- path: /netlib/clapack/clapack/CLAPACK/TESTING/EIG/ ----------------------------------------------------------- Makefile alahdg.c alareq.c alarqg.c alasmg.c alasum.c alasvm.c cbdt01.c cbdt02.c cbdt03.c cchkbb.c cchkbd.c cchkbk.c cchkbl.c cchkec.c cchkee.c cchkgb.c cchkgg.c cchkgk.c cchkgl.c cchkhb.c cchkhs.c cchkst.c cckglm.c cckgqr.c cckgsv.c ccklse.c cdrvbd.c cdrves.c cdrvev.c cdrvgg.c cdrvsg.c cdrvst.c cdrvsx.c cdrvvx.c cerrbd.c cerrec.c cerred.c cerrgg.c cerrhs.c cerrst.c cget02.c cget10.c cget22.c cget23.c cget24.c cget35.c cget36.c cget37.c cget38.c cget51.c cget52.c cglmts.c cgqrts.c cgrqts.c cgsvts.c chbt21.c chet21.c chet22.c chkxer.c chpt21.c chst01.c clarfy.c clarhs.c clatm4.c clsets.c csbmv.c csgt01.c cslect.c cstt21.c cunt01.c cunt03.c dbdt01.c dbdt02.c dbdt03.c dchkbb.c dchkbd.c dchkbk.c dchkbl.c dchkec.c dchkee.c dchkgb.c dchkgg.c dchkgk.c dchkgl.c dchkhs.c dchksb.c dchkst.c dckglm.c dckgqr.c dckgsv.c dcklse.c ddrvbd.c ddrves.c ddrvev.c ddrvgg.c ddrvsg.c ddrvst.c ddrvsx.c ddrvvx.c derrbd.c derrec.c derred.c derrgg.c derrhs.c derrst.c dget02.c dget10.c dget22.c dget23.c dget24.c dget31.c dget32.c dget33.c dget34.c dget35.c dget36.c dget37.c dget38.c dget39.c dget51.c dget52.c dget53.c dglmts.c dgqrts.c dgrqts.c dgsvts.c dhst01.c dlafts.c dlahd2.c dlarfy.c dlarhs.c dlasum.c dlatb9.c dlatm4.c dlsets.c dort01.c dort03.c dsbt21.c dsgt01.c dslect.c dspt21.c dstech.c dstect.c dstt21.c dstt22.c dsvdch.c dsvdct.c dsxt1.c dsyt21.c dsyt22.c f2c.h ilaenv.c sbdt01.c sbdt02.c sbdt03.c schkbb.c schkbd.c schkbk.c schkbl.c schkec.c schkee.c schkgb.c schkgg.c schkgk.c schkgl.c schkhs.c schksb.c schkst.c sckglm.c sckgqr.c sckgsv.c scklse.c sdrvbd.c sdrves.c sdrvev.c sdrvgg.c sdrvsg.c sdrvst.c sdrvsx.c sdrvvx.c serrbd.c serrec.c serred.c serrgg.c serrhs.c serrst.c sget02.c sget10.c sget22.c sget23.c sget24.c sget31.c sget32.c sget33.c sget34.c sget35.c sget36.c sget37.c sget38.c sget39.c sget51.c sget52.c sget53.c sglmts.c sgqrts.c sgrqts.c sgsvts.c shst01.c slafts.c slahd2.c slarfy.c slarhs.c slasum.c slatb9.c slatm4.c slsets.c sort01.c sort03.c ssbt21.c ssgt01.c sslect.c sspt21.c sstech.c sstect.c sstt21.c sstt22.c ssvdch.c ssvdct.c ssxt1.c ssyt21.c ssyt22.c xerbla.c xlaenv.c zbdt01.c zbdt02.c zbdt03.c zchkbb.c zchkbd.c zchkbk.c zchkbl.c zchkec.c zchkee.c zchkgb.c zchkgg.c zchkgk.c zchkgl.c zchkhb.c zchkhs.c zchkst.c zckglm.c zckgqr.c zckgsv.c zcklse.c zdrvbd.c zdrves.c zdrvev.c zdrvgg.c zdrvsg.c zdrvst.c zdrvsx.c zdrvvx.c zerrbd.c zerrec.c zerred.c zerrgg.c zerrhs.c zerrst.c zget02.c zget10.c zget22.c zget23.c zget24.c zget35.c zget36.c zget37.c zget38.c zget51.c zget52.c zglmts.c zgqrts.c zgrqts.c zgsvts.c zhbt21.c zhet21.c zhet22.c zhpt21.c zhst01.c zlarfy.c zlarhs.c zlatm4.c zlsets.c zsbmv.c zsgt01.c zslect.c zstt21.c zunt01.c zunt03.c ----------------------------------------------------------- path: /netlib/clapack/clapack/CLAPACK/TESTING/LIN/ ----------------------------------------------------------- Makefile aladhd.c alaerh.c alaesm.c alahd.c alareq.c alasum.c alasvm.c cchkaa.c cchkeq.c cchkgb.c cchkge.c cchkgt.c cchkhe.c cchkhp.c cchklq.c cchkpb.c cchkpo.c cchkpp.c cchkpt.c cchkql.c cchkqp.c cchkqr.c cchkrq.c cchksp.c cchksy.c cchktb.c cchktp.c cchktr.c cchktz.c cdrvgb.c cdrvge.c cdrvgt.c cdrvhe.c cdrvhp.c cdrvls.c cdrvpb.c cdrvpo.c cdrvpp.c cdrvpt.c cdrvsp.c cdrvsy.c cerrge.c cerrgt.c cerrhe.c cerrlq.c cerrls.c cerrpo.c cerrql.c cerrqp.c cerrqr.c cerrrq.c cerrsy.c cerrtr.c cerrtz.c cerrvx.c cgbt01.c cgbt02.c cgbt05.c cgelqs.c cgeqls.c cgeqrs.c cgerqs.c cget01.c cget02.c cget03.c cget04.c cget07.c cgtt01.c cgtt02.c cgtt05.c chet01.c chkxer.c chpt01.c claipd.c claptm.c clarhs.c clatb4.c clatsp.c clatsy.c clattb.c clattp.c clattr.c clavhe.c clavhp.c clavsp.c clavsy.c clqt01.c clqt02.c clqt03.c cpbt01.c cpbt02.c cpbt05.c cpot01.c cpot02.c cpot03.c cpot05.c cppt01.c cppt02.c cppt03.c cppt05.c cptt01.c cptt02.c cptt05.c cqlt01.c cqlt02.c cqlt03.c cqpt01.c cqrt01.c cqrt02.c cqrt03.c cqrt11.c cqrt12.c cqrt13.c cqrt14.c cqrt15.c cqrt16.c cqrt17.c crqt01.c crqt02.c crqt03.c csbmv.c cspt01.c cspt02.c cspt03.c csyt01.c csyt02.c csyt03.c ctbt02.c ctbt03.c ctbt05.c ctbt06.c ctpt01.c ctpt02.c ctpt03.c ctpt05.c ctpt06.c ctrt01.c ctrt02.c ctrt03.c ctrt05.c ctrt06.c ctzt01.c ctzt02.c dchkaa.c dchkeq.c dchkgb.c dchkge.c dchkgt.c dchklq.c dchkpb.c dchkpo.c dchkpp.c dchkpt.c dchkql.c dchkqp.c dchkqr.c dchkrq.c dchksp.c dchksy.c dchktb.c dchktp.c dchktr.c dchktz.c ddrvgb.c ddrvge.c ddrvgt.c ddrvls.c ddrvpb.c ddrvpo.c ddrvpp.c ddrvpt.c ddrvsp.c ddrvsy.c derrge.c derrgt.c derrlq.c derrls.c derrpo.c derrql.c derrqp.c derrqr.c derrrq.c derrsy.c derrtr.c derrtz.c derrvx.c dgbt01.c dgbt02.c dgbt05.c dgelqs.c dgeqls.c dgeqrs.c dgerqs.c dget01.c dget02.c dget03.c dget04.c dget06.c dget07.c dgtt01.c dgtt02.c dgtt05.c dlaord.c dlaptm.c dlarhs.c dlatb4.c dlattb.c dlattp.c dlattr.c dlavsp.c dlavsy.c dlqt01.c dlqt02.c dlqt03.c dpbt01.c dpbt02.c dpbt05.c dpot01.c dpot02.c dpot03.c dpot05.c dppt01.c dppt02.c dppt03.c dppt05.c dptt01.c dptt02.c dptt05.c dqlt01.c dqlt02.c dqlt03.c dqpt01.c dqrt01.c dqrt02.c dqrt03.c dqrt11.c dqrt12.c dqrt13.c dqrt14.c dqrt15.c dqrt16.c dqrt17.c drqt01.c drqt02.c drqt03.c dspt01.c dsyt01.c dtbt02.c dtbt03.c dtbt05.c dtbt06.c dtpt01.c dtpt02.c dtpt03.c dtpt05.c dtpt06.c dtrt01.c dtrt02.c dtrt03.c dtrt05.c dtrt06.c dtzt01.c dtzt02.c f2c.h ilaenv.c schkaa.c schkeq.c schkgb.c schkge.c schkgt.c schklq.c schkpb.c schkpo.c schkpp.c schkpt.c schkql.c schkqp.c schkqr.c schkrq.c schksp.c schksy.c schktb.c schktp.c schktr.c schktz.c sdrvgb.c sdrvge.c sdrvgt.c sdrvls.c sdrvpb.c sdrvpo.c sdrvpp.c sdrvpt.c sdrvsp.c sdrvsy.c serrge.c serrgt.c serrlq.c serrls.c serrpo.c serrql.c serrqp.c serrqr.c serrrq.c serrsy.c serrtr.c serrtz.c serrvx.c sgbt01.c sgbt02.c sgbt05.c sgelqs.c sgeqls.c sgeqrs.c sgerqs.c sget01.c sget02.c sget03.c sget04.c sget06.c sget07.c sgtt01.c sgtt02.c sgtt05.c slaord.c slaptm.c slarhs.c slatb4.c slattb.c slattp.c slattr.c slavsp.c slavsy.c slqt01.c slqt02.c slqt03.c spbt01.c spbt02.c spbt05.c spot01.c spot02.c spot03.c spot05.c sppt01.c sppt02.c sppt03.c sppt05.c sptt01.c sptt02.c sptt05.c sqlt01.c sqlt02.c sqlt03.c sqpt01.c sqrt01.c sqrt02.c sqrt03.c sqrt11.c sqrt12.c sqrt13.c sqrt14.c sqrt15.c sqrt16.c sqrt17.c srqt01.c srqt02.c srqt03.c sspt01.c ssyt01.c stbt02.c stbt03.c stbt05.c stbt06.c stpt01.c stpt02.c stpt03.c stpt05.c stpt06.c strt01.c strt02.c strt03.c strt05.c strt06.c stzt01.c stzt02.c xerbla.c xlaenv.c zchkaa.c zchkeq.c zchkgb.c zchkge.c zchkgt.c zchkhe.c zchkhp.c zchklq.c zchkpb.c zchkpo.c zchkpp.c zchkpt.c zchkql.c zchkqp.c zchkqr.c zchkrq.c zchksp.c zchksy.c zchktb.c zchktp.c zchktr.c zchktz.c zdrvgb.c zdrvge.c zdrvgt.c zdrvhe.c zdrvhp.c zdrvls.c zdrvpb.c zdrvpo.c zdrvpp.c zdrvpt.c zdrvsp.c zdrvsy.c zerrge.c zerrgt.c zerrhe.c zerrlq.c zerrls.c zerrpo.c zerrql.c zerrqp.c zerrqr.c zerrrq.c zerrsy.c zerrtr.c zerrtz.c zerrvx.c zgbt01.c zgbt02.c zgbt05.c zgelqs.c zgeqls.c zgeqrs.c zgerqs.c zget01.c zget02.c zget03.c zget04.c zget07.c zgtt01.c zgtt02.c zgtt05.c zhet01.c zhpt01.c zlaipd.c zlaptm.c zlarhs.c zlatb4.c zlatsp.c zlatsy.c zlattb.c zlattp.c zlattr.c zlavhe.c zlavhp.c zlavsp.c zlavsy.c zlqt01.c zlqt02.c zlqt03.c zpbt01.c zpbt02.c zpbt05.c zpot01.c zpot02.c zpot03.c zpot05.c zppt01.c zppt02.c zppt03.c zppt05.c zptt01.c zptt02.c zptt05.c zqlt01.c zqlt02.c zqlt03.c zqpt01.c zqrt01.c zqrt02.c zqrt03.c zqrt11.c zqrt12.c zqrt13.c zqrt14.c zqrt15.c zqrt16.c zqrt17.c zrqt01.c zrqt02.c zrqt03.c zsbmv.c zspt01.c zspt02.c zspt03.c zsyt01.c zsyt02.c zsyt03.c ztbt02.c ztbt03.c ztbt05.c ztbt06.c ztpt01.c ztpt02.c ztpt03.c ztpt05.c ztpt06.c ztrt01.c ztrt02.c ztrt03.c ztrt05.c ztrt06.c ztzt01.c ztzt02.c ----------------------------------------------------------- path: /netlib/clapack/clapack/CLAPACK/TESTING/MATGEN/ ----------------------------------------------------------- Makefile clagge.c claghe.c clagsy.c clarge.c clarnd.c claror.c clarot.c clatm1.c clatm2.c clatm3.c clatme.c clatmr.c clatms.c dlagge.c dlagsy.c dlaran.c dlarge.c dlarnd.c dlaror.c dlarot.c dlatm1.c dlatm2.c dlatm3.c dlatme.c dlatmr.c dlatms.c f2c.h slagge.c slagsy.c slaran.c slarge.c slarnd.c slaror.c slarot.c slatm1.c slatm2.c slatm3.c slatme.c slatmr.c slatms.c zlagge.c zlaghe.c zlagsy.c zlarge.c zlarnd.c zlaror.c zlarot.c zlatm1.c zlatm2.c zlatm3.c zlatme.c zlatmr.c zlatms.c ----------------------------------------------------------- path: /netlib/clapack/clapack/CLAPACK/TIMING/ ----------------------------------------------------------- CBAND.in CBLASA.in CBLASB.in CBLASC.in CGEPTIM.in CNEPTIM.in CSEPTIM.in CSVDTIM.in CTIME.in CTIME2.in DBAND.in DBLASA.in DBLASB.in DBLASC.in DGEPTIM.in DNEPTIM.in DSEPTIM.in DSVDTIM.in DTIME.in DTIME2.in EIG/ LIN/ Makefile Makefile.sgi SBAND.in SBLASA.in SBLASB.in SBLASC.in SGEPTIM.in SNEPTIM.in SSEPTIM.in SSVDTIM.in STIME.in STIME2.in ZBAND.in ZBLASA.in ZBLASB.in ZBLASC.in ZGEPTIM.in ZNEPTIM.in ZSEPTIM.in ZSVDTIM.in ZTIME.in ZTIME2.in cband.in cblasa.in cblasb.in cblasc.in cgeptim.in cneptim.in cseptim.in csvdtim.in ctime.in ctime2.in dband.in dblasa.in dblasb.in dblasc.in dgeptim.in dneptim.in dseptim.in dsvdtim.in dtime.in dtime2.in sband.in sblasa.in sblasb.in sblasc.in sgeptim.in sneptim.in sseptim.in ssvdtim.in stime.in stime2.in zband.in zblasa.in zblasb.in zblasc.in zgeptim.in zneptim.in zseptim.in zsvdtim.in ztime.in ztime2.in ----------------------------------------------------------- path: /netlib/clapack/clapack/CLAPACK/TIMING/EIG/ ----------------------------------------------------------- EIGSRC/ Makefile atimin.c ceispack.c claqzh.c clatm4.c ctim21.c ctim22.c ctim26.c ctim51.c ctimee.c deispack.c dlaqzh.c dlatm4.c dmflop.c dopla.c dopla2.c dprtbe.c dprtbg.c dprtbr.c dprtbs.c dprtbv.c dtim21.c dtim22.c dtim26.c dtim51.c dtimee.c f2c.h ilaenv.c seispack.c slaqzh.c slatm4.c smflop.c sopla.c sopla2.c sprtbe.c sprtbg.c sprtbr.c sprtbs.c sprtbv.c stim21.c stim22.c stim26.c stim51.c stimee.c xlaenv.c zeispack.c zlaqzh.c zlatm4.c ztim21.c ztim22.c ztim26.c ztim51.c ztimee.c ----------------------------------------------------------- path: /netlib/clapack/clapack/CLAPACK/TIMING/EIG/EIGSRC/ ----------------------------------------------------------- Makefile cbdsqr.c cgghrd.c chgeqz.c chsein.c chseqr.c claed0.c claed7.c claed8.c claein.c clahqr.c cpteqr.c cstedc.c cstein.c csteqr.c ctgevc.c ctrevc.c dbdsqr.c dgghrd.c dhgeqz.c dhsein.c dhseqr.c dlaebz.c dlaed0.c dlaed1.c dlaed2.c dlaed3.c dlaed4.c dlaed5.c dlaed6.c dlaed7.c dlaed8.c dlaed9.c dlaeda.c dlaein.c dlahqr.c dlasq1.c dlasq2.c dlasq3.c dlasq4.c dpteqr.c dstebz.c dstedc.c dstein.c dsteqr.c dsterf.c dtgevc.c dtrevc.c f2c.h sbdsqr.c sgghrd.c shgeqz.c shsein.c shseqr.c slaebz.c slaed0.c slaed1.c slaed2.c slaed3.c slaed4.c slaed5.c slaed6.c slaed7.c slaed8.c slaed9.c slaeda.c slaein.c slahqr.c slasq1.c slasq2.c slasq3.c slasq4.c spteqr.c sstebz.c sstedc.c sstein.c ssteqr.c ssterf.c stgevc.c strevc.c zbdsqr.c zgghrd.c zhgeqz.c zhsein.c zhseqr.c zlaed0.c zlaed7.c zlaed8.c zlaein.c zlahqr.c zpteqr.c zstedc.c zstein.c zsteqr.c ztgevc.c ztrevc.c ----------------------------------------------------------- path: /netlib/clapack/clapack/CLAPACK/TIMING/LIN/ ----------------------------------------------------------- Makefile atimck.c atimin.c clinpk.c ctimaa.c ctimb2.c ctimb3.c ctimbr.c ctimgb.c ctimge.c ctimgt.c ctimhe.c ctimhp.c ctimhr.c ctimlq.c ctimmg.c ctimmm.c ctimmv.c ctimpb.c ctimpo.c ctimpp.c ctimpt.c ctimql.c ctimqp.c ctimqr.c ctimrq.c ctimsp.c ctimsy.c ctimtb.c ctimtd.c ctimtp.c ctimtr.c deispk.c dlinpk.c dmflop.c dopaux.c dopbl2.c dopbl3.c dopgb.c dopla.c dprtb2.c dprtb3.c dprtb4.c dprtb5.c dprtbl.c dtimaa.c dtimb2.c dtimb3.c dtimbr.c dtimgb.c dtimge.c dtimgt.c dtimhr.c dtimlq.c dtimmg.c dtimmm.c dtimmv.c dtimpb.c dtimpo.c dtimpp.c dtimpt.c dtimql.c dtimqp.c dtimqr.c dtimrq.c dtimsp.c dtimsy.c dtimtb.c dtimtd.c dtimtp.c dtimtr.c f2c.h icopy.c ilaenv.c seispk.c slinpk.c smflop.c sopaux.c sopbl2.c sopbl3.c sopgb.c sopla.c sprtb2.c sprtb3.c sprtb4.c sprtb5.c sprtbl.c stimaa.c stimb2.c stimb3.c stimbr.c stimgb.c stimge.c stimgt.c stimhr.c stimlq.c stimmg.c stimmm.c stimmv.c stimpb.c stimpo.c stimpp.c stimpt.c stimql.c stimqp.c stimqr.c stimrq.c stimsp.c stimsy.c stimtb.c stimtd.c stimtp.c stimtr.c xlaenv.c zlinpk.c ztimaa.c ztimb2.c ztimb3.c ztimbr.c ztimgb.c ztimge.c ztimgt.c ztimhe.c ztimhp.c ztimhr.c ztimlq.c ztimmg.c ztimmm.c ztimmv.c ztimpb.c ztimpo.c ztimpp.c ztimpt.c ztimql.c ztimqp.c ztimqr.c ztimrq.c ztimsp.c ztimsy.c ztimtb.c ztimtd.c ztimtp.c ztimtr.c ----------------------------------------------------------- path: /netlib/clapack/clapack/CLAPACK/Translate/ ----------------------------------------------------------- CompletePolish Makefile PartialPolish comment.l delete.sed f2c lenscrub.l lex_for_comment.c lex_for_lenscrub.c lex_for_lint.c lex_for_substitute_locals.c main.c run_comment run_macro run_splitter run_stripper split.sed test_tool.c test_yacc.c ----------------------------------------------------------- for single precision complex CLAPACK routines path: /netlib/clapack/complex/ ----------------------------------------------------------- # ------------------------------------------------------- # Available SIMPLE and DIVIDE AND CONQUER DRIVER routines: # ------------------------------------------------------- .depend cgbtf2.c cgebd2.c cgehd2.c cgelq2.c cgeql2.c cgeqr2.c cgerq2.c cgesv.c for Solves a general system of linear equations AX=B. gams d2c1 cgbsv.c for Solves a general banded system of linear equations AX=B. gams d2c2 cgetf2.c cgetri.c cgetrs.c cgtsv.c for Solves a general tridiagonal system of linear equations AX=B. gams d2c2a chegs2.c chetd2.c chetf2.c clabrd.c clacgv.c clacon.c clacpy.c clacrm.c clacrt.c cladiv.c claed0.c claed7.c claed8.c claein.c claesy.c claev2.c clags2.c clagtm.c clahef.c clahqr.c clahrd.c claic1.c clangb.c clange.c clangt.c clanhb.c clanhe.c clanhp.c clanhs.c clanht.c clansb.c clansp.c clansy.c clantb.c clantp.c clantr.c clapll.c clapmt.c claqgb.c claqge.c claqhb.c claqhe.c claqhp.c claqsb.c claqsp.c claqsy.c clar2v.c clarf.c clarfb.c clarfg.c clarft.c clarfx.c clargv.c clarnv.c clartg.c clartv.c clascl.c claset.c clasr.c classq.c claswp.c clasyf.c clatbs.c clatps.c clatrd.c clatrs.c clatzm.c clauu2.c clauum.c cpbtf2.c cposv.c for Solves a Hermitian positive definite system of linear equations AX=B. gams d2d1b cpotf2.c cppsv.c for Solves a Hermitian positive definite system of linear equations AX=B, where A is in packed storage. gams d2d1b cpbsv.c for Solves a Hermitian positive definite banded system of linear equations AX=B. gams d2d2 cptsv.c for Solves a Hermitian positive definite tridiagonal system of linear equations AX=B. gams d2d2a crot.c cspmv.c cspr.c csrot.c csrscl.c csymv.c csyr.c csysv.c for Solves a complex symmetric indefinite system of linear equations AX=B. gams d2c1 chesv.c for Solves a complex Hermitian indefinite system of linear equations AX=B. gams d2d1a cspsv.c for Solves a complex symmetric indefinite system of linear equations AX=B, where A is held in packed storage. gams d2c1 chpsv.c for Solves a complex Hermitian indefinite system of linear equations AX=B, where A is held in packed storage. gams d2d1a cgels.c for Computes the least squares solution to an over-determined system of linear equations, A X=B or A**H X=B, or the minimum norm solution of an under-determined system, where A is a general rectangular matrix of full rank, using a QR or LQ factorization of A. gams d9a1 cgglse.c for Solves the LSE (Constrained Linear Least Squares Problem) using the GRQ (Generalized RQ) factorization gams d9b1 cggglm.c for Solves the GLM (Generalized Linear Regression Model) using the GQR (Generalized QR) factorization cheev.c for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix. gams d4a3 cheevd.c for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a3 chpev.c for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix in packed storage. gams d4a3 chpevd.c for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix in packed storage. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a3 chbev.c for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian band matrix. gams d4a3, d4a6 chbevd.c for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian band matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a3, d4a6 cgees.c for Computes the eigenvalues and Schur factorization of a general matrix, and orders the factorization so that selected eigenvalues are at the top left of the Schur form. gams d4a4 cgeev.c for Computes the eigenvalues and left and right eigenvectors of a general matrix. gams d4a4 cgesvd.c for Computes the singular value decomposition (SVD) of a general rectangular matrix. gams d6 chegv.c for Computes all eigenvalues and the eigenvectors of a generalized Hermitian-definite generalized eigenproblem, Ax= lambda Bx, ABx= lambda x, or BAx= lambda x. gams d4b3 chpgv.c for Computes all eigenvalues and eigenvectors of a generalized Hermitian-definite generalized eigenproblem, Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, where A and B are in packed storage. gams d4b3 chbgv.c for Computes all the eigenvalues, and optionally, the eigenvectors of a complex generalized Hermitian-definite banded eigenproblem, of the form A*x=(lambda)*B*x. A and B are assumed to be Hermitian and banded, and B is also positive definite. cgegs.c for Computes the generalized eigenvalues, Schur form, and left and/or right Schur vectors for a pair of nonsymmetric matrices cgegv.c for Computes the generalized eigenvalues, and left and/or right generalized eigenvectors for a pair of nonsymmetric matrices cggsvd.c for Computes the Generalized Singular Value Decomposition # --------------------------------- # Available EXPERT DRIVER routines: # --------------------------------- cgesvx.c for Solves a general system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2c1 cgbsvx.c for Solves a general banded system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2c2 cgtsvx.c for Solves a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2c2a cposvx.c for Solves a Hermitian positive definite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2d1b cppsvx.c for Solves a Hermitian positive definite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2d1b cpbsvx.c for Solves a Hermitian positive definite banded system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2d2 cptsvx.c for Solves a Hermitian positive definite tridiagonal system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2d2a csysvx.c for Solves a complex symmetric indefinite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2c1 chesvx.c for Solves a complex Hermitian indefinite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2d1a cspsvx.c for Solves a complex symmetric indefinite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2c1 chpsvx.c for Solves a complex Hermitian indefinite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2d1a cgelsx.c for Computes the minimum norm least squares solution to an over- or under-determined system of linear equations A X=B, using a complete orthogonal factorization of A. gams d9a1 cgelss.c for Computes the minimum norm least squares solution to an over- or under-determined system of linear equations A X=B, using the singular value decomposition of A. gams d9a1 cheevx.c for Computes selected eigenvalues and eigenvectors of a Hermitian matrix. gams d4a3 chpevx.c for Computes selected eigenvalues and eigenvectors of a Hermitian matrix in packed storage. gams d4a3 chbevx.c for Computes selected eigenvalues and eigenvectors of a Hermitian band matrix. gams d4a3, d4a6 cgeesx.c for Computes the eigenvalues and Schur factorization of a general matrix, orders the factorization so that selected eigenvalues are at the top left of the Schur form, and computes reciprocal condition numbers for the average of the selected eigenvalues, and for the associated right invariant subspace. gams d4a4 cgeevx.c for Computes the eigenvalues and left and right eigenvectors of a general matrix, with preliminary balancing of the matrix, and computes reciprocal condition numbers for the eigenvalues and right eigenvectors. gams d4a4 # --------------------------------- # Available COMPUTATIONAL routines: # --------------------------------- cbdsqr.c for Computes the singular value decomposition (SVD) of a real bidiagonal matrix, using the bidiagonal QR algorithm. gams d6 cgbbrd.c Reduces a complex general band matrix to real upper bidiagonal form by a unitary transformation. cgbcon.c for Estimates the reciprocal of the condition number of a general band matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by CGBTRF. gams d2c2 cgbequ.c for Computes row and column scalings to equilibrate a general band matrix and reduce its condition number. gams d2c2 cgbrfs.c for Improves the computed solution to a general banded system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2c2 cgbtrf.c for Computes an LU factorization of a general band matrix, using partial pivoting with row interchanges. gams d2c2 cgbtrs.c for Solves a general banded system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by CGBTRF. gams d2c2 cgebak.c for Transforms eigenvectors of a balanced matrix to those of the original matrix supplied to CGEBAL. gams d4c4 cgebal.c for Balances a general matrix in order to improve the accuracy of computed eigenvalues. gams d4c1a cgebrd.c for Reduces a general rectangular matrix to real bidiagonal form by an orthogonal/unitary transformation. gams d6 cgecon.c for Estimates the reciprocal of the condition number of a general matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by CGETRF. gams d2c1 cgeequ.c for Computes row and column scalings to equilibrate a general rectangular matrix and reduce its condition number. gams d2c1 cgehrd.c for Reduces a general matrix to upper Hessenberg form by an unitary similarity transformation. gams d4c1b2 cgelqf.c for Computes an LQ factorization of a general rectangular matrix. gams d5 cgeqlf.c for Computes a QL factorization of a general rectangular matrix. gams d5 cgeqpf.c for Computes a QR factorization with column pivoting of a general rectangular matrix. gams d5 cgeqrf.c for Computes a QR factorization of a general rectangular matrix. gams d5 cgerfs.c for Improves the computed solution to a general system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2c1 cgerqf.c for Computes an RQ factorization of a general rectangular matrix. gams d5 cgetrf.c for Computes an LU factorization of a general matrix, using partial pivoting with row interchanges. gams d2c1 cggbak.c for Forms the right or left eigenvectors of the generalized eigenvalue problem by backward transformation on the computed eigenvectors of the balanced pair of matrices output by CGGBAL. cggbal.c for Balances a pair of general complex matrices for the generalized eigenvalue problem A x = lambda B x. cgghrd.c for Reduces a pair of complex matrices to generalized upper Hessenberg form using unitary similarity transformations. cggqrf.c for Computes a generalized QR factorization of a pair of matrices. cggrqf.c for Computes a generalized RQ factorization of a pair of matrices. cggsvp.c for Computes unitary matrices as a preprocessing step for computing the generalized singular value decomposition cgtcon.c for Estimates the reciprocal of the condition number of a general tridiagonal matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by CGTTRF. gams d2c2a cgtrfs.c for Improves the computed solution to a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2c2a cgttrf.c for Computes an LU factorization of a general tridiagonal matrix, using partial pivoting with row interchanges. gams d2c2a cgttrs.c for Solves a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by CGTTRF. gams d2c2a chgeqz.c for Implements a single-/double-shift version of the QZ method for finding the generalized eigenvalues of the equation det(A - w(i) B) = 0 chsein.c for Computes specified right and/or left eigenvectors of an upper Hessenberg matrix by inverse iteration. gams d4c3 chseqr.c for Computes the eigenvalues and Schur factorization of an upper Hessenberg matrix, using the multishift QR algorithm. gams d4c2b csytf2.c ctrti2.c cung2l.c cung2r.c cungl2.c cungr2.c cunm2l.c cunm2r.c cunml2.c cunmr2.c cupgtr.c for Generates the unitary transformation matrix from a reduction to tridiagonal form determined by CHPTRD. gams d4c1b1 cupmtr.c for Multiplies a general matrix by the unitary transformation matrix from a reduction to tridiagonal form determined by CHPTRD. gams d4c4 cungbr.c for Generates the unitary transformation matrices from a reduction to bidiagonal form determined by CGEBRD. gams d6 cunghr.c for Generates the unitary transformation matrix from a reduction to Hessenberg form determined by CGEHRD. gams d4c1b2 cunglq.c for Generates all or part of the unitary matrix Q from an LQ factorization determined by CGELQF. gams d5 cungql.c for Generates all or part of the unitary matrix Q from a QL factorization determined by CGEQLF. gams d5 cungqr.c for Generates all or part of the unitary matrix Q from a QR factorization determined by CGEQRF. gams d5 cungrq.c for Generates all or part of the unitary matrix Q from an RQ factorization determined by CGERQF. gams d5 cungtr.c for Generates the unitary transformation matrix from a reduction to tridiagonal form determined by CHETRD. gams d4c1b1 cunmbr.c for Multiplies a general matrix by one of the unitary transformation matrices from a reduction to bidiagonal form determined by CGEBRD. gams d6 cunmhr.c for Multiplies a general matrix by the unitary transformation matrix from a reduction to Hessenberg form determined by CGEHRD. gams d4c4 cunmlq.c for Multiplies a general matrix by the unitary matrix from an LQ factorization determined by CGELQF. gams d5 cunmql.c for Multiplies a general matrix by the unitary matrix from a QL factorization determined by CGEQLF. gams d5 cunmqr.c for Multiplies a general matrix by the unitary matrix from a QR factorization determined by CGEQRF. gams d5 cunmrq.c for Multiplies a general matrix by the unitary matrix from an RQ factorization determined by CGERQF. gams d5 cunmtr.c for Multiplies a general matrix by the unitary transformation matrix from a reduction to tridiagonal form determined by CHETRD. gams d4c4 cpbcon.c for Estimates the reciprocal of the condition number of a Hermitian positive definite band matrix, using the Cholesky factorization computed by CPBTRF. gams d2d2 cpbequ.c for Computes row and column scalings to equilibrate a Hermitian positive definite band matrix and reduce its condition number. gams d2d2 cpbrfs.c for Improves the computed solution to a Hermitian positive definite banded system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2d2 cpbstf.c for Computes a split Cholesky factorization of a complex Hermitian positive definite band matrix. cpbtrf.c for Computes the Cholesky factorization of a Hermitian positive definite band matrix. gams d2d2 cpbtrs.c for Solves a Hermitian positive definite banded system of linear equations AX=B, using the Cholesky factorization computed by CPBTRF. gams d2d2 cpocon.c for Estimates the reciprocal of the condition number of a Hermitian positive definite matrix, using the Cholesky factorization computed by CPOTRF. gams d2d1b cpoequ.c for Computes row and column scalings to equilibrate a Hermitian positive definite matrix and reduce its condition number. gams d2d1b cporfs.c for Improves the computed solution to a Hermitian positive definite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2d1b cpotrf.c for Computes the Cholesky factorization of a Hermitian positive definite matrix. gams d2d1b cpotri.c for Computes the inverse of a Hermitian positive definite matrix, using the Cholesky factorization computed by CPOTRF. gams d2d1b cpotrs.c for Solves a Hermitian positive definite system of linear equations AX=B, using the Cholesky factorization computed by CPOTRF. gams d2d1b cppcon.c for Estimates the reciprocal of the condition number of a Hermitian positive definite matrix in packed storage, using the Cholesky factorization computed by CPPTRF. gams d2d1b cppequ.c for Computes row and column scalings to equilibrate a Hermitian positive definite matrix in packed storage and reduce its condition number. gams d2d1b cpprfs.c for Improves the computed solution to a Hermitian positive definite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2d1b cpptrf.c for Computes the Cholesky factorization of a Hermitian positive definite matrix in packed storage. gams d2d1b cpptri.c for Computes the inverse of a Hermitian positive definite matrix in packed storage, using the Cholesky factorization computed by CPPTRF. gams d2d1b cpptrs.c for Solves a Hermitian positive definite system of linear equations AX=B, where A is held in packed storage, using the Cholesky factorization computed by CPPTRF. gams d2d1b cptcon.c for Computes the reciprocal of the condition number of a Hermitian positive definite tridiagonal matrix, using the LDL**H factorization computed by CPTTRF. gams d2d2a cpteqr.c for Computes all eigenvalues and eigenvectors of a complex symmetric positive definite tridiagonal matrix, by computing the SVD of its bidiagonal Cholesky factor. gams d4c2a cptrfs.c for Improves the computed solution to a Hermitian positive definite tridiagonal system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2d2a cpttrf.c for Computes the LDL**H factorization of a Hermitian positive definite tridiagonal matrix. gams d2d2a cpttrs.c for Solves a Hermitian positive definite tridiagonal system of linear equations, using the LDL**H factorization computed by CPTTRF. gams d2d2a chbgst.c for Reduces a complex Hermitian-definite banded generalized eigenproblem A x = lambda B x to standard form, where B has been factorized by CPBSTF (Crawford's algorithm). chbtrd.c for Reduces a Hermitian band matrix to real symmetric tridiagonal form by a unitary similarity transformation. gams d4c1b1 cspcon.c for Estimates the reciprocal of the condition number of a complex symmetric indefinite matrix in packed storage, using the factorization computed by CSPTRF. gams d2c1 chpcon.c for Estimates the reciprocal of the condition number of a complex Hermitian indefinite matrix in packed storage, using the factorization computed by CHPTRF. gams d2d1a chpgst.c for Reduces a Hermitian-definite generalized eigenproblem Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, to standard form, where A and B are held in packed storage, and B has been factorized by CPPTRF. gams d4c1c csprfs.c for Improves the computed solution to a complex symmetric indefinite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2c1 chprfs.c for Improves the computed solution to a complex Hermitian indefinite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2d1a chptrd.c for Reduces a Hermitian matrix in packed storage to real symmetric tridiagonal form by a unitary similarity transformation. gams d4c1b1 csptrf.c for Computes the factorization of a complex symmetric-indefinite matrix in packed storage, using the diagonal pivoting method. gams d2c1 chptrf.c for Computes the factorization of a complex Hermitian-indefinite matrix in packed storage, using the diagonal pivoting method. gams d2d1a csptri.c for Computes the inverse of a complex symmetric indefinite matrix in packed storage, using the factorization computed by CSPTRF. gams d2c1 chptri.c for Computes the inverse of a complex Hermitian indefinite matrix in packed storage, using the factorization computed by CHPTRF. gams d2d1a csptrs.c for Solves a complex symmetric indefinite system of linear equations AX=B, where A is held in packed storage, using the factorization computed by CSPTRF. gams d2c1 chptrs.c for Solves a complex Hermitian indefinite system of linear equations AX=B, where A is held in packed storage, using the factorization computed by CHPTRF. gams d2d1a cstedc.c for Computes all eigenvalues and, optionally, eigenvectors of a symmetric tridiagonal matrix using the divide and conquer algorithm. cstein.c for Computes selected eigenvectors of a real symmetric tridiagonal matrix by inverse iteration. gams d4c3 csteqr.c for Computes all eigenvalues and eigenvectors of a real symmetric tridiagonal matrix, using the implicit QL or QR algorithm. gams d4a1, d4a5, d4c2a csycon.c for Estimates the reciprocal of the condition number of a complex symmetric indefinite matrix, using the factorization computed by CSYTRF. gams d2c1 checon.c for Estimates the reciprocal of the condition number of a complex Hermitian indefinite matrix, using the factorization computed by CHETRF. gams d2d1a chegst.c for Reduces a Hermitian-definite generalized eigenproblem Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, to standard form, where B has been factorized by CPOTRF. gams d4c1c csyrfs.c for Improves the computed solution to a complex symmetric indefinite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2c1 cherfs.c for Improves the computed solution to a complex Hermitian indefinite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2d1a chetrd.c for Reduces a Hermitian matrix to real symmetric tridiagonal form by an orthogonal/unitary similarity transformation. gams d4c1b1 csytrf.c for Computes the factorization of a complex symmetric-indefinite matrix, using the diagonal pivoting method. gams d2c1 chetrf.c for Computes the factorization of a complex Hermitian-indefinite matrix, using the diagonal pivoting method. gams d2d1a csytri.c for Computes the inverse of a complex symmetric indefinite matrix, using the factorization computed by CSYTRF. gams d2c1 chetri.c for Computes the inverse of a complex Hermitian indefinite matrix, using the factorization computed by CHETRF. gams d2d1a csytrs.c for Solves a complex symmetric indefinite system of linear equations AX=B, using the factorization computed by CSPTRF. gams d2c1 chetrs.c for Solves a complex Hermitian indefinite system of linear equations AX=B, using the factorization computed by CHPTRF. gams d2d1a ctbcon.c for Estimates the reciprocal of the condition number of a triangular band matrix, in either the 1-norm or the infinity-norm. gams d2c2, d2c3 ctbrfs.c for Provides forward and backward error bounds for the solution of a triangular banded system of linear equations AX=B, A**T X=B or A**H X=B. gams d2c2, d2c3 ctbtrs.c for Solves a triangular banded system of linear equations AX=B, A**T X=B or A**H X=B. gams d2c2, d2c3 ctgevc.c for Computes some or all of the right and/or left generalized eigenvectors of a pair of complex upper triangular matrices. gams d4b4 ctgsja.c for Computes the generalized singular value decomposition of two complex upper triangular (or trapezoidal) matrices as output by CGGSVP. gams d6 ctpcon.c for Estimates the reciprocal of the condition number of a triangular matrix in packed storage, in either the 1-norm or the infinity-norm. gams d2c3 ctprfs.c for Provides forward and backward error bounds for the solution of a triangular system of linear equations AX=B, A**T X=B or A**H X=B, where A is held in packed storage. gams d2c3 ctptri.c for Computes the inverse of a triangular matrix in packed storage. gams d2c3 ctptrs.c for Solves a triangular system of linear equations AX=B, A**T X=B or A**H X=B, where A is held in packed storage. gams d2c3 ctrcon.c for Estimates the reciprocal of the condition number of a triangular matrix, in either the 1-norm or the infinity-norm. gams d2c3 ctrevc.c for Computes left and right eigenvectors of an complex upper triangular matrix. gams d4c3 ctrexc.c for Reorders the Schur factorization of a matrix by a unitary similarity transformation. gams d4c ctrrfs.c for Provides forward and backward error bounds for the solution of a triangular system of linear equations A X=B, A**T X=B or A**H X=B. gams d2c3 ctrsen.c for Reorders the Schur factorization of a matrix in order to find an orthonormal basis of a right invariant subspace corresponding to selected eigenvalues, and returns reciprocal condition numbers (sensitivities) of the average of the cluster of eigenvalues and of the invariant subspace. gams d4c ctrsna.c for Estimates the reciprocal condition numbers (sensitivities) of selected eigenvalues and eigenvectors of a complex upper triangular matrix. gams d4c ctrsyl.c for Solves the Sylvester matrix equation A X +/- X B=C where A and B are complex upper triangular, and may be transposed. gams d8 ctrtri.c for Computes the inverse of a triangular matrix. gams d2c3 ctrtrs.c for Solves a triangular system of linear equations AX=B, A**T X=B or A**H X=B. gams d2c3 ctzrqf.c for Computes an RQ factorization of an upper trapezoidal matrix. gams d5 ----------------------------------------------------------- for double precision complex CLAPACK routines path: /netlib/clapack/complex16/ ----------------------------------------------------------- # ------------------------------------------------------- # Available SIMPLE and DIVIDE AND CONQUER DRIVER routines: # ------------------------------------------------------- .depend zdrot.c zdrscl.c zgbtf2.c zgebd2.c zgehd2.c zgelq2.c zgeql2.c zgeqr2.c zgerq2.c zgesv.c for Solves a general system of linear equations AX=B. gams d2c1 zgbsv.c for Solves a general banded system of linear equations AX=B. gams d2c2 zgetf2.c zgetri.c zgetrs.c zgtsv.c for Solves a general tridiagonal system of linear equations AX=B. gams d2c2a zhegs2.c zhetd2.c zhetf2.c zlabrd.c zlacgv.c zlacon.c zlacpy.c zlacrm.c zlacrt.c zladiv.c zlaed0.c zlaed7.c zlaed8.c zlaein.c zlaesy.c zlaev2.c zlags2.c zlagtm.c zlahef.c zlahqr.c zlahrd.c zlaic1.c zlangb.c zlange.c zlangt.c zlanhb.c zlanhe.c zlanhp.c zlanhs.c zlanht.c zlansb.c zlansp.c zlansy.c zlantb.c zlantp.c zlantr.c zlapll.c zlapmt.c zlaqgb.c zlaqge.c zlaqhb.c zlaqhe.c zlaqhp.c zlaqsb.c zlaqsp.c zlaqsy.c zlar2v.c zlarf.c zlarfb.c zlarfg.c zlarft.c zlarfx.c zlargv.c zlarnv.c zlartg.c zlartv.c zlascl.c zlaset.c zlasr.c zlassq.c zlaswp.c zlasyf.c zlatbs.c zlatps.c zlatrd.c zlatrs.c zlatzm.c zlauu2.c zlauum.c zpbtf2.c zposv.c for Solves a Hermitian positive definite system of linear equations AX=B. gams d2d1b zpotf2.c zppsv.c for Solves a Hermitian positive definite system of linear equations AX=B, where A is in packed storage. gams d2d1b zpbsv.c for Solves a Hermitian positive definite banded system of linear equations AX=B. gams d2d2 zptsv.c for Solves a Hermitian positive definite tridiagonal system of linear equations AX=B. gams d2d2a zrot.c zspmv.c zspr.c zsymv.c zsyr.c zsysv.c for Solves a complex symmetric indefinite system of linear equations AX=B. gams d2c1 zhesv.c for Solves a complex Hermitian indefinite system of linear equations AX=B. gams d2d1a zspsv.c for Solves a complex symmetric indefinite system of linear equations AX=B, where A is held in packed storage. gams d2c1 zhpsv.c for Solves a complex Hermitian indefinite system of linear equations AX=B, where A is held in packed storage. gams d2d1a zgels.c for Computes the least squares solution to an over-determined system of linear equations, A X=B or A**H X=B, or the minimum norm solution of an under-determined system, where A is a general rectangular matrix of full rank, using a QR or LQ factorization of A. gams d9a1 zgglse.c for Solves the LSE (Constrained Linear Least Squares Problem) using the GRQ (Generalized RQ) factorization gams d9b1 zggglm.c for Solves the GLM (Generalized Linear Regression Model) using the GQR (Generalized QR) factorization zheev.c for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix. gams d4a3 zheevd.c for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a3 zhpev.c for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix in packed storage. gams d4a3 zhpevd.c for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix in packed storage. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a3 zhbev.c for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian band matrix. gams d4a3, d4a6 zhbevd.c for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian band matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a3, d4a6 zgees.c for Computes the eigenvalues and Schur factorization of a general matrix, and orders the factorization so that selected eigenvalues are at the top left of the Schur form. gams d4a4 zgeev.c for Computes the eigenvalues and left and right eigenvectors of a general matrix. gams d4a4 zgesvd.c for Computes the singular value decomposition (SVD) of a general rectangular matrix. gams d6 zhegv.c for Computes all eigenvalues and the eigenvectors of a generalized Hermitian-definite generalized eigenproblem, Ax= lambda Bx, ABx= lambda x, or BAx= lambda x. gams d4b3 zhpgv.c for Computes all eigenvalues and eigenvectors of a generalized Hermitian-definite generalized eigenproblem, Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, where A and B are in packed storage. gams d4b3 zhbgv.c for Computes all the eigenvalues, and optionally, the eigenvectors of a complex generalized Hermitian-definite banded eigenproblem, of the form A*x=(lambda)*B*x. A and B are assumed to be Hermitian and banded, and B is also positive definite. zgegs.c for Computes the generalized eigenvalues, Schur form, and left and/or right Schur vectors for a pair of nonsymmetric matrices zgegv.c for Computes the generalized eigenvalues, and left and/or right generalized eigenvectors for a pair of nonsymmetric matrices zggsvd.c for Computes the Generalized Singular Value Decomposition # --------------------------------- # Available EXPERT DRIVER routines: # --------------------------------- zgesvx.c for Solves a general system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2c1 zgbsvx.c for Solves a general banded system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2c2 zgtsvx.c for Solves a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2c2a zposvx.c for Solves a Hermitian positive definite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2d1b zppsvx.c for Solves a Hermitian positive definite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2d1b zpbsvx.c for Solves a Hermitian positive definite banded system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2d2 zptsvx.c for Solves a Hermitian positive definite tridiagonal system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2d2a zsysvx.c for Solves a complex symmetric indefinite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2c1 zhesvx.c for Solves a complex Hermitian indefinite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2d1a zspsvx.c for Solves a complex symmetric indefinite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2c1 zhpsvx.c for Solves a complex Hermitian indefinite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2d1a zgelsx.c for Computes the minimum norm least squares solution to an over- or under-determined system of linear equations A X=B, using a complete orthogonal factorization of A. gams d9a1 zgelss.c for Computes the minimum norm least squares solution to an over- or under-determined system of linear equations A X=B, using the singular value decomposition of A. gams d9a1 zheevx.c for Computes selected eigenvalues and eigenvectors of a Hermitian matrix. gams d4a3 zhpevx.c for Computes selected eigenvalues and eigenvectors of a Hermitian matrix in packed storage. gams d4a3 zhbevx.c for Computes selected eigenvalues and eigenvectors of a Hermitian band matrix. gams d4a3, d4a6 zgeesx.c for Computes the eigenvalues and Schur factorization of a general matrix, orders the factorization so that selected eigenvalues are at the top left of the Schur form, and computes reciprocal condition numbers for the average of the selected eigenvalues, and for the associated right invariant subspace. gams d4a4 zgeevx.c for Computes the eigenvalues and left and right eigenvectors of a general matrix, with preliminary balancing of the matrix, and computes reciprocal condition numbers for the eigenvalues and right eigenvectors. gams d4a4 # --------------------------------- # Available COMPUTATIONAL routines: # --------------------------------- zbdsqr.c for Computes the singular value decomposition (SVD) of a real bidiagonal matrix, using the bidiagonal QR algorithm. gams d6 zgbbrd.c Reduces a complex general band matrix to real upper bidiagonal form by a unitary transformation. zgbcon.c for Estimates the reciprocal of the condition number of a general band matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by CGBTRF. gams d2c2 zgbequ.c for Computes row and column scalings to equilibrate a general band matrix and reduce its condition number. gams d2c2 zgbrfs.c for Improves the computed solution to a general banded system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2c2 zgbtrf.c for Computes an LU factorization of a general band matrix, using partial pivoting with row interchanges. gams d2c2 zgbtrs.c for Solves a general banded system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by CGBTRF. gams d2c2 zgebak.c for Transforms eigenvectors of a balanced matrix to those of the original matrix supplied to CGEBAL. gams d4c4 zgebal.c for Balances a general matrix in order to improve the accuracy of computed eigenvalues. gams d4c1a zgebrd.c for Reduces a general rectangular matrix to real bidiagonal form by an unitary transformation. gams d6 zgecon.c for Estimates the reciprocal of the condition number of a general matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by CGETRF. gams d2c1 zgeequ.c for Computes row and column scalings to equilibrate a general rectangular matrix and reduce its condition number. gams d2c1 zgehrd.c for Reduces a general matrix to upper Hessenberg form by an unitary similarity transformation. gams d4c1b2 zgelqf.c for Computes an LQ factorization of a general rectangular matrix. gams d5 zgeqlf.c for Computes a QL factorization of a general rectangular matrix. gams d5 zgeqpf.c for Computes a QR factorization with column pivoting of a general rectangular matrix. gams d5 zgeqrf.c for Computes a QR factorization of a general rectangular matrix. gams d5 zgerfs.c for Improves the computed solution to a general system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2c1 zgerqf.c for Computes an RQ factorization of a general rectangular matrix. gams d5 zgetrf.c for Computes an LU factorization of a general matrix, using partial pivoting with row interchanges. gams d2c1 zggbak.c for Forms the right or left eigenvectors of the generalized eigenvalue problem by backward transformation on the computed eigenvectors of the balanced pair of matrices output by CGGBAL. zggbal.c for Balances a pair of general complex matrices for the generalized eigenvalue problem A x = lambda B x. zgghrd.c for Reduces a pair of complex matrices to generalized upper Hessenberg form using unitary similarity transformations. zggqrf.c for Computes a generalized QR factorization of a pair of matrices. zggrqf.c for Computes a generalized RQ factorization of a pair of matrices. zggsvp.c for Computes unitary matrices as a preprocessing step for computing the generalized singular value decomposition zgtcon.c for Estimates the reciprocal of the condition number of a general tridiagonal matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by CGTTRF. gams d2c2a zgtrfs.c for Improves the computed solution to a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2c2a zgttrf.c for Computes an LU factorization of a general tridiagonal matrix, using partial pivoting with row interchanges. gams d2c2a zgttrs.c for Solves a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by CGTTRF. gams d2c2a zhgeqz.c for Implements a single-/double-shift version of the QZ method for finding the generalized eigenvalues of the equation det(A - w(i) B) = 0 zhsein.c for Computes specified right and/or left eigenvectors of an upper Hessenberg matrix by inverse iteration. gams d4c3 zhseqr.c for Computes the eigenvalues and Schur factorization of an upper Hessenberg matrix, using the multishift QR algorithm. gams d4c2b zsytf2.c ztrti2.c zung2l.c zung2r.c zungl2.c zungr2.c zunm2l.c zunm2r.c zunml2.c zunmr2.c zupgtr.c for Generates the unitary transformation matrix from a reduction to tridiagonal form determined by CHPTRD. gams d4c1b1 zupmtr.c for Multiplies a general matrix by the unitary transformation matrix from a reduction to tridiagonal form determined by CHPTRD. gams d4c4 zungbr.c for Generates the unitary transformation matrices from a reduction to bidiagonal form determined by CGEBRD. gams d6 zunghr.c for Generates the unitary transformation matrix from a reduction to Hessenberg form determined by CGEHRD. gams d4c1b2 zunglq.c for Generates all or part of the unitary matrix Q from an LQ factorization determined by CGELQF. gams d5 zungql.c for Generates all or part of the unitary matrix Q from a QL factorization determined by CGEQLF. gams d5 zungqr.c for Generates all or part of the unitary matrix Q from a QR factorization determined by CGEQRF. gams d5 zungrq.c for Generates all or part of the unitary matrix Q from an RQ factorization determined by CGERQF. gams d5 zungtr.c for Generates the unitary transformation matrix from a reduction to tridiagonal form determined by CHETRD. gams d4c1b1 zunmbr.c for Multiplies a general matrix by one of the unitary transformation matrices from a reduction to bidiagonal form determined by CGEBRD. gams d6 zunmhr.c for Multiplies a general matrix by the unitary transformation matrix from a reduction to Hessenberg form determined by CGEHRD. gams d4c4 zunmlq.c for Multiplies a general matrix by the unitary matrix from an LQ factorization determined by CGELQF. gams d5 zunmql.c for Multiplies a general matrix by the unitary matrix from a QL factorization determined by CGEQLF. gams d5 zunmqr.c for Multiplies a general matrix by the unitary matrix from a QR factorization determined by CGEQRF. gams d5 zunmrq.c for Multiplies a general matrix by the unitary matrix from an RQ factorization determined by CGERQF. gams d5 zunmtr.c for Multiplies a general matrix by the unitary transformation matrix from a reduction to tridiagonal form determined by CHETRD. gams d4c4 zpbcon.c for Estimates the reciprocal of the condition number of a Hermitian positive definite band matrix, using the Cholesky factorization computed by CPBTRF. gams d2d2 zpbequ.c for Computes row and column scalings to equilibrate a Hermitian positive definite band matrix and reduce its condition number. gams d2d2 zpbrfs.c for Improves the computed solution to a Hermitian positive definite banded system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2d2 zpbstf.c for Computes a split Cholesky factorization of a complex Hermitian positive definite band matrix. zpbtrf.c for Computes the Cholesky factorization of a Hermitian positive definite band matrix. gams d2d2 zpbtrs.c for Solves a Hermitian positive definite banded system of linear equations AX=B, using the Cholesky factorization computed by CPBTRF. gams d2d2 zpocon.c for Estimates the reciprocal of the condition number of a Hermitian positive definite matrix, using the Cholesky factorization computed by CPOTRF. gams d2d1b zpoequ.c for Computes row and column scalings to equilibrate a Hermitian positive definite matrix and reduce its condition number. gams d2d1b zporfs.c for Improves the computed solution to a Hermitian positive definite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2d1b zpotrf.c for Computes the Cholesky factorization of a Hermitian positive definite matrix. gams d2d1b zpotri.c for Computes the inverse of a Hermitian positive definite matrix, using the Cholesky factorization computed by CPOTRF. gams d2d1b zpotrs.c for Solves a Hermitian positive definite system of linear equations AX=B, using the Cholesky factorization computed by CPOTRF. gams d2d1b zppcon.c for Estimates the reciprocal of the condition number of a Hermitian positive definite matrix in packed storage, using the Cholesky factorization computed by CPPTRF. gams d2d1b zppequ.c for Computes row and column scalings to equilibrate a Hermitian positive definite matrix in packed storage and reduce its condition number. gams d2d1b zpprfs.c for Improves the computed solution to a Hermitian positive definite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2d1b zpptrf.c for Computes the Cholesky factorization of a Hermitian positive definite matrix in packed storage. gams d2d1b zpptri.c for Computes the inverse of a Hermitian positive definite matrix in packed storage, using the Cholesky factorization computed by CPPTRF. gams d2d1b zpptrs.c for Solves a Hermitian positive definite system of linear equations AX=B, where A is held in packed storage, using the Cholesky factorization computed by CPPTRF. gams d2d1b zptcon.c for Computes the reciprocal of the condition number of a Hermitian positive definite tridiagonal matrix, using the LDL**H factorization computed by CPTTRF. gams d2d2a zpteqr.c for Computes all eigenvalues and eigenvectors of a complex symmetric positive definite tridiagonal matrix, by computing the SVD of its bidiagonal Cholesky factor. gams d4c2a zptrfs.c for Improves the computed solution to a Hermitian positive definite tridiagonal system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2d2a zpttrf.c for Computes the LDL**H factorization of a Hermitian positive definite tridiagonal matrix. gams d2d2a zpttrs.c for Solves a Hermitian positive definite tridiagonal system of linear equations, using the LDL**H factorization computed by CPTTRF. gams d2d2a zhbgst.c for Reduces a complex Hermitian-definite banded generalized eigenproblem A x = lambda B x to standard form, where B has been factorized by CPBSTF (Crawford's algorithm). zhbtrd.c for Reduces a Hermitian band matrix to real symmetric tridiagonal form by a unitary similarity transformation. gams d4c1b1 zspcon.c for Estimates the reciprocal of the condition number of a complex symmetric indefinite matrix in packed storage, using the factorization computed by CSPTRF. gams d2c1 zhpcon.c for Estimates the reciprocal of the condition number of a complex Hermitian indefinite matrix in packed storage, using the factorization computed by CHPTRF. gams d2d1a zhpgst.c for Reduces a Hermitian-definite generalized eigenproblem Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, to standard form, where A and B are held in packed storage, and B has been factorized by CPPTRF. gams d4c1c zsprfs.c for Improves the computed solution to a complex symmetric indefinite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2c1 zhprfs.c for Improves the computed solution to a complex Hermitian indefinite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2d1a zhptrd.c for Reduces a Hermitian matrix in packed storage to real symmetric tridiagonal form by a unitary similarity transformation. gams d4c1b1 zsptrf.c for Computes the factorization of a complex symmetric-indefinite matrix in packed storage, using the diagonal pivoting method. gams d2c1 zhptrf.c for Computes the factorization of a complex Hermitian-indefinite matrix in packed storage, using the diagonal pivoting method. gams d2d1a zsptri.c for Computes the inverse of a complex symmetric indefinite matrix in packed storage, using the factorization computed by CSPTRF. gams d2c1 zhptri.c for Computes the inverse of a complex Hermitian indefinite matrix in packed storage, using the factorization computed by CHPTRF. gams d2d1a zsptrs.c for Solves a complex symmetric indefinite system of linear equations AX=B, where A is held in packed storage, using the factorization computed by CSPTRF. gams d2c1 zhptrs.c for Solves a complex Hermitian indefinite system of linear equations AX=B, where A is held in packed storage, using the factorization computed by CHPTRF. gams d2d1a zstedc.c for Computes all eigenvalues and, optionally, eigenvectors of a symmetric tridiagonal matrix using the divide and conquer algorithm. zstein.c for Computes selected eigenvectors of a real symmetric tridiagonal matrix by inverse iteration. gams d4c3 zsteqr.c for Computes all eigenvalues and eigenvectors of a real symmetric tridiagonal matrix, using the implicit QL or QR algorithm. gams d4a1, d4a5, d4c2a zsycon.c for Estimates the reciprocal of the condition number of a complex symmetric indefinite matrix, using the factorization computed by CSYTRF. gams d2c1 zhecon.c for Estimates the reciprocal of the condition number of a complex Hermitian indefinite matrix, using the factorization computed by CHETRF. gams d2d1a zhegst.c for Reduces a Hermitian-definite generalized eigenproblem Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, to standard form, where B has been factorized by CPOTRF. gams d4c1c zsyrfs.c for Improves the computed solution to a complex symmetric indefinite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2c1 zherfs.c for Improves the computed solution to a complex Hermitian indefinite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2d1a zhetrd.c for Reduces a Hermitian matrix to real symmetric tridiagonal form by an unitary similarity transformation. gams d4c1b1 zsytrf.c for Computes the factorization of a complex symmetric-indefinite matrix, using the diagonal pivoting method. gams d2c1 zhetrf.c for Computes the factorization of a complex Hermitian-indefinite matrix, using the diagonal pivoting method. gams d2d1a zsytri.c for Computes the inverse of a complex symmetric indefinite matrix, using the factorization computed by CSYTRF. gams d2c1 zhetri.c for Computes the inverse of a complex Hermitian indefinite matrix, using the factorization computed by CHETRF. gams d2d1a zsytrs.c for Solves a complex symmetric indefinite system of linear equations AX=B, using the factorization computed by CSPTRF. gams d2c1 zhetrs.c for Solves a complex Hermitian indefinite system of linear equations AX=B, using the factorization computed by CHPTRF. gams d2d1a ztbcon.c for Estimates the reciprocal of the condition number of a triangular band matrix, in either the 1-norm or the infinity-norm. gams d2c2, d2c3 ztbrfs.c for Provides forward and backward error bounds for the solution of a triangular banded system of linear equations AX=B, A**T X=B or A**H X=B. gams d2c2, d2c3 ztbtrs.c for Solves a triangular banded system of linear equations AX=B, A**T X=B or A**H X=B. gams d2c2, d2c3 ztgevc.c for Computes some or all of the right and/or left generalized eigenvectors of a pair of complex upper triangular matrices. gams d4b4 ztgsja.c for Computes the generalized singular value decomposition of two complex upper triangular (or trapezoidal) matrices as output by CGGSVP. gams d6 ztpcon.c for Estimates the reciprocal of the condition number of a triangular matrix in packed storage, in either the 1-norm or the infinity-norm. gams d2c3 ztprfs.c for Provides forward and backward error bounds for the solution of a triangular system of linear equations AX=B, A**T X=B or A**H X=B, where A is held in packed storage. gams d2c3 ztptri.c for Computes the inverse of a triangular matrix in packed storage. gams d2c3 ztptrs.c for Solves a triangular system of linear equations AX=B, A**T X=B or A**H X=B, where A is held in packed storage. gams d2c3 ztrcon.c for Estimates the reciprocal of the condition number of a triangular matrix, in either the 1-norm or the infinity-norm. gams d2c3 ztrevc.c for Computes left and right eigenvectors of an complex upper triangular matrix. gams d4c3 ztrexc.c for Reorders the Schur factorization of a matrix by a unitary similarity transformation. gams d4c ztrrfs.c for Provides forward and backward error bounds for the solution of a triangular system of linear equations A X=B, A**T X=B or A**H X=B. gams d2c3 ztrsen.c for Reorders the Schur factorization of a matrix in order to find an orthonormal basis of a right invariant subspace corresponding to selected eigenvalues, and returns reciprocal condition numbers (sensitivities) of the average of the cluster of eigenvalues and of the invariant subspace. gams d4c ztrsna.c for Estimates the reciprocal condition numbers (sensitivities) of selected eigenvalues and eigenvectors of a complex upper triangular matrix. gams d4c ztrsyl.c for Solves the Sylvester matrix equation A X +/- X B=C where A and B are complex upper triangular, and may be transposed. gams d8 ztrtri.c for Computes the inverse of a triangular matrix. gams d2c3 ztrtrs.c for Solves a triangular system of linear equations AX=B, A**T X=B or A**H X=B. gams d2c3 ztzrqf.c for Computes an RQ factorization of an upper trapezoidal matrix. gams d5 ----------------------------------------------------------- for double precision real CLAPACK routines path: /netlib/clapack/double/ ----------------------------------------------------------- # -------------------------------------------------------- # Available SIMPLE and DIVIDE AND CONQUER DRIVER routines: # -------------------------------------------------------- .depend dgbtf2.c dgebd2.c dgehd2.c dgelq2.c dgeql2.c dgeqr2.c dgerq2.c dgesv.c for Solves a general system of linear equations AX=B. gams d2a1 dgbsv.c for Solves a general banded system of linear equations AX=B. gams d2a2 dgetf2.c dgtsv.c for Solves a general tridiagonal system of linear equations AX=B. gams d2a2a dlabad.c dlabrd.c dlacon.c dlacpy.c dladiv.c dlae2.c dlaebz.c dlaed0.c dlaed1.c dlaed2.c dlaed3.c dlaed4.c dlaed5.c dlaed6.c dlaed7.c dlaed8.c dlaed9.c dlaeda.c dlaein.c dlaev2.c dlaexc.c dlag2.c dlags2.c dlagtf.c dlagtm.c dlagts.c dlahqr.c dlahrd.c dlaic1.c dlaln2.c dlamch.c dlamrg.c dlangb.c dlange.c dlangt.c dlanhs.c dlansb.c dlansp.c dlanst.c dlansy.c dlantb.c dlantp.c dlantr.c dlanv2.c dlapll.c dlapmt.c dlapy2.c dlapy3.c dlaqgb.c dlaqge.c dlaqsb.c dlaqsp.c dlaqsy.c dlaqtr.c dlar2v.c dlarf.c dlarfb.c dlarfg.c dlarft.c dlarfx.c dlargv.c dlarnv.c dlartg.c dlartv.c dlaruv.c dlas2.c dlascl.c dlaset.c dlasq1.c dlasq2.c dlasq3.c dlasq4.c dlasr.c dlasrt.c dlassq.c dlasv2.c dlaswp.c dlasy2.c dlasyf.c dlatbs.c dlatps.c dlatrd.c dlatrs.c dlatzm.c dlauu2.c dlauum.c dorg2l.c dorg2r.c dorgl2.c dorgr2.c dorm2l.c dorm2r.c dorml2.c dormr2.c dpbtf2.c dposv.c for Solves a symmetric positive definite system of linear equations AX=B. gams d2b1b dpotf2.c dppsv.c for Solves a symmetric positive definite system of linear equations AX=B, where A is held in packed storage. gams d2b1b dpbsv.c for Solves a symmetric positive definite banded system of linear equations AX=B. gams d2b2 dptsv.c for Solves a symmetric positive definite tridiagonal system of linear equations AX=B. gams d2b2a drscl.c dsecnd.c dsygs2.c dsysv.c for Solves a real symmetric indefinite system of linear equations AX=B. gams d2b1a dspsv.c for Solves a real symmetric indefinite system of linear equations AX=B, where A is held in packed storage. gams d2b1a dgels.c for Computes the least squares solution to an over-determined system of linear equations, A X=B or A**H X=B, or the minimum norm solution of an under-determined system, where A is a general rectangular matrix of full rank, using a QR or LQ factorization of A. gams d9a1 dgglse.c for Solves the LSE (Constrained Linear Least Squares Problem) using the GRQ (Generalized RQ) factorization gams d9b1 dggglm.c for Solves the GLM (Generalized Linear Regression Model) using the GQR (Generalized QR) factorization dsyev.c for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric matrix. gams d4a1 dsyevd.c for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a1 dspev.c for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric matrix in packed storage. gams d4a1 dspevd.c for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric matrix in packed storage. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a1 dsbev.c for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric band matrix. gams d4a1, d4a6 dsbevd.c for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric band matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a1, d4a6 dstev.c for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric tridiagonal matrix. gams d4a1, d4a5 dstevd.c for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric tridiagonal matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a1, d4a5 dgees.c for Computes the eigenvalues and Schur factorization of a general matrix, and orders the factorization so that selected eigenvalues are at the top left of the Schur form. gams d4a2 dgeev.c for Computes the eigenvalues and left and right eigenvectors of a general matrix. gams d4a2 dgesvd.c for Computes the singular value decomposition (SVD) of a general rectangular matrix. gams d6 dsygv.c for Computes all eigenvalues and the eigenvectors of a generalized symmetric-definite generalized eigenproblem, Ax= lambda Bx, ABx= lambda x, or BAx= lambda x. gams d4b1 dspgv.c for Computes all eigenvalues and eigenvectors of a generalized symmetric-definite generalized eigenproblem, Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, where A and B are in packed storage. gams d4b1 dsbgv.c for Computes all the eigenvalues, and optionally, the eigenvectors of a real generalized symmetric-definite banded eigenproblem, of the form A*x=(lambda)*B*x. A and B are assumed to be symmetric and banded, and B is also positive definite. dgegs.c for Computes the generalized eigenvalues, Schur form, and left and/or right Schur vectors for a pair of nonsymmetric matrices dgegv.c for Computes the generalized eigenvalues, and left and/or right generalized eigenvectors for a pair of nonsymmetric matrices dggsvd.c for Computes the Generalized Singular Value Decomposition # --------------------------------- # Available EXPERT DRIVER routines: # --------------------------------- dgesvx.c for Solves a general system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2a1 dgbsvx.c for Solves a general banded system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2a2 dgtsvx.c for Solves a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2a2a dposvx.c for Solves a symmetric positive definite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2b1b dppsvx.c for Solves a symmetric positive definite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2b1b dpbsvx.c for Solves a symmetric positive definite banded system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2b2 dptsvx.c for Solves a symmetric positive definite tridiagonal system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2b2a dsysvx.c for Solves a real symmetric indefinite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2b1a dspsvx.c for Solves a real symmetric indefinite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2b1a dgelsx.c for Computes the minimum norm least squares solution to an over- or under-determined system of linear equations A X=B, using a complete orthogonal factorization of A. gams d9a1 dgelss.c for Computes the minimum norm least squares solution to an over- or under-determined system of linear equations A X=B, using the singular value decomposition of A. gams d9a1 dsyevx.c for Computes selected eigenvalues and eigenvectors of a symmetric matrix. gams d4a1 dspevx.c for Computes selected eigenvalues and eigenvectors of a symmetric matrix in packed storage. gams d4a1 dsbevx.c for Computes selected eigenvalues and eigenvectors of a symmetric band matrix. gams d4a1, d4a6 dstevx.c for Computes selected eigenvalues and eigenvectors of a real symmetric tridiagonal matrix. gams d4a1, d4a5 dgeesx.c for Computes the eigenvalues and Schur factorization of a general matrix, orders the factorization so that selected eigenvalues are at the top left of the Schur form, and computes reciprocal condition numbers for the average of the selected eigenvalues, and for the associated right invariant subspace. gams d4a2 dgeevx.c for Computes the eigenvalues and left and right eigenvectors of a general matrix, with preliminary balancing of the matrix, and computes reciprocal condition numbers for the eigenvalues and right eigenvectors. gams d4a2 # --------------------------------- # Available COMPUTATIONAL routines: # --------------------------------- dbdsqr.c for Computes the singular value decomposition (SVD) of a real bidiagonal matrix, using the bidiagonal QR algorithm. gams d6 ddisna.c for Computes the reciprocal condition numbers for the eigenvectors of a real symmetric or complex Hermitian matrix or for the left or right singular vectors of a general matrix. dgbbrd.c Reduces a general band matrix to real upper bidiagonal form by an orthogonal transformation. dgbcon.c for Estimates the reciprocal of the condition number of a general band matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by DGBTRF. gams d2a2 dgbequ.c for Computes row and column scalings to equilibrate a general band matrix and reduce its condition number. gams d2a2 dgbrfs.c for Improves the computed solution to a general banded system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2a2 dgbtrf.c for Computes an LU factorization of a general band matrix, using partial pivoting with row interchanges. gams d2a2 dgbtrs.c for Solves a general banded system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by DGBTRF. gams d2a2 dgebak.c for Transforms eigenvectors of a balanced matrix to those of the original matrix supplied to DGEBAL. gams d4c4 dgebal.c for Balances a general matrix in order to improve the accuracy of computed eigenvalues. gams d4c1a dgebrd.c for Reduces a general rectangular matrix to real bidiagonal form by an orthogonal transformation. gams d6 dgecon.c for Estimates the reciprocal of the condition number of a general matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by DGETRF. gams d2a1 dgeequ.c for Computes row and column scalings to equilibrate a general rectangular matrix and reduce its condition number. gams d2a1 dgehrd.c for Reduces a general matrix to upper Hessenberg form by an orthogonal similarity transformation. gams d4c1b2 dgelqf.c for Computes an LQ factorization of a general rectangular matrix. gams d5 dgeqlf.c for Computes a QL factorization of a general rectangular matrix. gams d5 dgeqpf.c for Computes a QR factorization with column pivoting of a general rectangular matrix. gams d5 dgeqrf.c for Computes a QR factorization of a general rectangular matrix. gams d5 dgerfs.c for Improves the computed solution to a general system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2a1 dgerqf.c for Computes an RQ factorization of a general rectangular matrix. gams d5 dgetrf.c for Computes an LU factorization of a general matrix, using partial pivoting with row interchanges. gams d2a1 dgetri.c for Computes the inverse of a general matrix, using the LU factorization computed by DGETRF. gams d2a1 dgetrs.c for Solves a general system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by DGETRF. gams d2a1 dggbak.c for Forms the right or left eigenvectors of the generalized eigenvalue problem by backward transformation on the computed eigenvectors of the balanced pair of matrices output by DGGBAL. dggbal.c for Balances a pair of general real matrices for the generalized eigenvalue problem A x = lambda B x. dgghrd.c for Reduces a pair of real matrices to generalized upper Hessenberg form using orthogonal transformations dggqrf.c for Computes a generalized QR factorization of a pair of matrices. dggrqf.c for Computes a generalized RQ factorization of a pair of matrices. dggsvp.c for Computes orthogonal matrices as a preprocessing step for computing the generalized singular value decomposition dgtcon.c for Estimates the reciprocal of the condition number of a general tridiagonal matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by DGTTRF. gams d2a2a dgtrfs.c for Improves the computed solution to a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2a2a dgttrf.c for Computes an LU factorization of a general tridiagonal matrix, using partial pivoting with row interchanges. gams d2a2a dgttrs.c for Solves a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by DGTTRF. gams d2a2a dhgeqz.c for Implements a single-/double-shift version of the QZ method for finding the generalized eigenvalues of the equation det(A - w(i) B) = 0 dhsein.c for Computes specified right and/or left eigenvectors of an upper Hessenberg matrix by inverse iteration. gams d4c3 dhseqr.c for Computes the eigenvalues and Schur factorization of an upper Hessenberg matrix, using the multishift QR algorithm. gams d4c2b dopgtr.c for Generates the orthogonal transformation matrix from a reduction to tridiagonal form determined by SSPTRD. gams d4c1b1 dopmtr.c for Multiplies a general matrix by the orthogonal transformation matrix from a reduction to tridiagonal form determined by DSPTRD. gams d4c4 dorgbr.c for Generates the orthogonal transformation matrices from a reduction to bidiagonal form determined by DGEBRD. gams d6 dorghr.c for Generates the orthogonal transformation matrix from a reduction to Hessenberg form determined by DGEHRD. gams d4c1b2 dorglq.c for Generates all or part of the orthogonal matrix Q from an LQ factorization determined by DGELQF. gams d5 dorgql.c for Generates all or part of the orthogonal matrix Q from a QL factorization determined by DGEQLF. gams d5 dorgqr.c for Generates all or part of the orthogonal matrix Q from a QR factorization determined by DGEQRF. gams d5 dorgrq.c for Generates all or part of the orthogonal matrix Q from an RQ factorization determined by DGERQF. gams d5 dorgtr.c for Generates the orthogonal transformation matrix from a reduction to tridiagonal form determined by DSYTRD. gams d4c1b1 dormbr.c for Multiplies a general matrix by one of the orthogonal transformation matrices from a reduction to bidiagonal form determined by DGEBRD. gams d6 dormhr.c for Multiplies a general matrix by the orthogonal transformation matrix from a reduction to Hessenberg form determined by DGEHRD. gams d4c4 dormlq.c for Multiplies a general matrix by the orthogonal matrix from an LQ factorization determined by DGELQF. gams d5 dormql.c for Multiplies a general matrix by the orthogonal matrix from a QL factorization determined by DGEQLF. gams d5 dormqr.c for Multiplies a general matrix by the orthogonal matrix from a QR factorization determined by DGEQRF. gams d5 dormrq.c for Multiplies a general matrix by the orthogonal matrix from an RQ factorization determined by DGERQF. gams d5 dormtr.c for Multiplies a general matrix by the orthogonal transformation matrix from a reduction to tridiagonal form determined by DSYTRD. gams d4c4 dpbcon.c for Estimates the reciprocal of the condition number of a symmetric positive definite band matrix, using the Cholesky factorization computed by DPBTRF. gams d2b2 dpbequ.c for Computes row and column scalings to equilibrate a symmetric positive definite band matrix and reduce its condition number. gams d2b2 dpbrfs.c for Improves the computed solution to a symmetric positive definite banded system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2b2 dpbstf.c for Computes a split Cholesky factorization of a real symmetric positive definite band matrix. dpbtrf.c for Computes the Cholesky factorization of a symmetric positive definite band matrix. gams d2b2 dpbtrs.c for Solves a symmetric positive definite banded system of linear equations AX=B, using the Cholesky factorization computed by DPBTRF. gams d2b2 dpocon.c for Estimates the reciprocal of the condition number of a symmetric positive definite matrix, using the Cholesky factorization computed by DPOTRF. gams d2b1b dpoequ.c for Computes row and column scalings to equilibrate a symmetric positive definite matrix and reduce its condition number. gams d2b1b dporfs.c for Improves the computed solution to a symmetric positive definite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2b1b dpotrf.c for Computes the Cholesky factorization of a symmetric positive definite matrix. gams d2b1b dpotri.c for Computes the inverse of a symmetric positive definite matrix, using the Cholesky factorization computed by DPOTRF. gams d2b1b dpotrs.c for Solves a symmetric positive definite system of linear equations AX=B, using the Cholesky factorization computed by DPOTRF. gams d2b1b dppcon.c for Estimates the reciprocal of the condition number of a symmetric positive definite matrix in packed storage, using the Cholesky factorization computed by DPPTRF. gams d2b1b dppequ.c for Computes row and column scalings to equilibrate a symmetric positive definite matrix in packed storage and reduce its condition number. gams d2b1b dpprfs.c for Improves the computed solution to a symmetric positive definite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2b1b dpptrf.c for Computes the Cholesky factorization of a symmetric positive definite matrix in packed storage. gams d2b1b dpptri.c for Computes the inverse of a symmetric positive definite matrix in packed storage, using the Cholesky factorization computed by DPPTRF. gams d2b1b dpptrs.c for Solves a symmetric positive definite system of linear equations AX=B, where A is held in packed storage, using the Cholesky factorization computed by DPPTRF. gams d2b1b dptcon.c for Computes the reciprocal of the condition number of a symmetric positive definite tridiagonal matrix, using the LDL**H factorization computed by DPTTRF. gams d2b2a dpteqr.c for Computes all eigenvalues and eigenvectors of a real symmetric positive definite tridiagonal matrix, by computing the SVD of its bidiagonal Cholesky factor. gams d4c2a dptrfs.c for Improves the computed solution to a symmetric positive definite tridiagonal system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2b2a dpttrf.c for Computes the LDL**H factorization of a symmetric positive definite tridiagonal matrix. gams d2b2a dpttrs.c for Solves a symmetric positive definite tridiagonal system of linear equations, using the LDL**H factorization computed by DPTTRF. gams d2b2a dsbgst.c for Reduces a real symmetric-definite banded generalized eigenproblem A x = lambda B x to standard form, where B has been factorized by DPBSTF (Crawford's algorithm). dsbtrd.c for Reduces a symmetric band matrix to real symmetric tridiagonal form by an orthogonal similarity transformation. gams d4c1b1 dspcon.c for Estimates the reciprocal of the condition number of a real symmetric indefinite matrix in packed storage, using the factorization computed by DSPTRF. gams d2b1a dspgst.c for Reduces a symmetric-definite generalized eigenproblem Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, to standard form, where A and B are held in packed storage, and B has been factorized by DPPTRF. gams d4c1c dsprfs.c for Improves the computed solution to a real symmetric indefinite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2b1a dsptrd.c for Reduces a symmetric matrix in packed storage to real symmetric tridiagonal form by an orthogonal similarity transformation. gams d4c1b1 dsptrf.c for Computes the factorization of a real symmetric-indefinite matrix in packed storage, using the diagonal pivoting method. gams d2b1a dsptri.c for Computes the inverse of a real symmetric indefinite matrix in packed storage, using the factorization computed by DSPTRF. gams d2b1a dsptrs.c for Solves a real symmetric indefinite system of linear equations AX=B, where A is held in packed storage, using the factorization computed by DSPTRF. gams d2b1a dstebz.c for Computes selected eigenvalues of a real symmetric tridiagonal matrix by bisection. gams d4c2a dstedc.c for Computes all eigenvalues and, optionally, eigenvectors of a symmetric tridiagonal matrix using the divide and conquer algorithm. dstein.c for Computes selected eigenvectors of a real symmetric tridiagonal matrix by inverse iteration. gams d4c3 dsteqr.c for Computes all eigenvalues and eigenvectors of a real symmetric tridiagonal matrix, using the implicit QL or QR algorithm. gams d4a1, d4a5, d4c2a dsterf.c for Computes all eigenvalues of a real symmetric tridiagonal matrix, using a root-free variant of the QL or QR algorithm. gams d4c2a dsycon.c for Estimates the reciprocal of the condition number of a real symmetric indefinite matrix, using the factorization computed by DSYTRF. gams d2b1a dsygst.c for Reduces a symmetric-definite generalized eigenproblem Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, to standard form, where B has been factorized by DPOTRF. gams d4c1c dsyrfs.c for Improves the computed solution to a real symmetric indefinite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2b1a dsytd2.c dsytf2.c dsytrd.c for Reduces a symmetric matrix to real symmetric tridiagonal form by an orthogonal similarity transformation. gams d4c1b1 dsytrf.c for Computes the factorization of a real symmetric-indefinite matrix, using the diagonal pivoting method. gams d2b1a dsytri.c for Computes the inverse of a real symmetric indefinite matrix, using the factorization computed by DSYTRF. gams d2b1a dsytrs.c for Solves a real symmetric indefinite system of linear equations AX=B, using the factorization computed by DSPTRF. gams d2b1a dtbcon.c for Estimates the reciprocal of the condition number of a triangular band matrix, in either the 1-norm or the infinity-norm. gams d2a2, d2a3 dtbrfs.c for Provides forward and backward error bounds for the solution of a triangular banded system of linear equations AX=B, A**T X=B or A**H X=B. gams d2a2, d2a3 dtbtrs.c for Solves a triangular banded system of linear equations AX=B, A**T X=B or A**H X=B. gams d2a2, d2a3 dtgevc.c for Computes some or all of the right and/or left generalized eigenvectors of a pair of upper triangular matrices. gams d4b2 dtgsja.c for Computes the generalized singular value decomposition of two real upper triangular (or trapezoidal) matrices as output by DGGSVP. gams d6 dtpcon.c for Estimates the reciprocal of the condition number of a triangular matrix in packed storage, in either the 1-norm or the infinity-norm. gams d2a3 dtprfs.c for Provides forward and backward error bounds for the solution of a triangular system of linear equations AX=B, A**T X=B or A**H X=B, where A is held in packed storage. gams d2a3 dtptri.c for Computes the inverse of a triangular matrix in packed storage. gams d2a3 dtptrs.c for Solves a triangular system of linear equations AX=B, A**T X=B or A**H X=B, where A is held in packed storage. gams d2a3 dtrcon.c for Estimates the reciprocal of the condition number of a triangular matrix, in either the 1-norm or the infinity-norm. gams d2a3 dtrevc.c for Computes some or all of the right and/or left eigenvectors of an upper quasi-triangular matrix. gams d4c3 dtrexc.c for Reorders the Schur factorization of a matrix by an orthogonal similarity transformation. gams d4c dtrrfs.c for Provides forward and backward error bounds for the solution of a triangular system of linear equations A X=B, A**T X=B or A**H X=B. gams d2a3 dtrsen.c for Reorders the Schur factorization of a matrix in order to find an orthonormal basis of a right invariant subspace corresponding to selected eigenvalues, and returns reciprocal condition numbers (sensitivities) of the average of the cluster of eigenvalues and of the invariant subspace. gams d4c dtrsna.c for Estimates the reciprocal condition numbers (sensitivities) of selected eigenvalues and eigenvectors of an upper quasi-triangular matrix. gams d4c dtrsyl.c for Solves the Sylvester matrix equation A X +/- X B=C where A and B are upper quasi-triangular, and may be transposed. gams d8 dtrti2.c dtrtri.c for Computes the inverse of a triangular matrix. gams d2a3 dtrtrs.c for Solves a triangular system of linear equations AX=B, A**T X=B or A**H X=B. gams d2a3 dtzrqf.c for Computes an RQ factorization of an upper trapezoidal matrix. gams d5 dzsum1.c ----------------------------------------------------------- for (FOR NON EMAIL USERS ONLY) Required by the path: /netlib/clapack/f2clibs/ ----------------------------------------------------------- F2CLIBS/ ----------------------------------------------------------- path: /netlib/clapack/f2clibs/F2CLIBS/ ----------------------------------------------------------- f2c.h libF77/ libI77/ ----------------------------------------------------------- path: /netlib/clapack/f2clibs/F2CLIBS/libF77/ ----------------------------------------------------------- Notice README Version.c abort_.c c_abs.c c_cos.c c_div.c c_exp.c c_log.c c_sin.c c_sqrt.c cabs.c d_abs.c d_acos.c d_asin.c d_atan.c d_atn2.c d_cnjg.c d_cos.c d_cosh.c d_dim.c d_exp.c d_imag.c d_int.c d_lg10.c d_log.c d_mod.c d_nint.c d_prod.c d_sign.c d_sin.c d_sinh.c d_sqrt.c d_tan.c d_tanh.c derf_.c derfc_.c ef1asc_.c ef1cmc_.c erf_.c erfc_.c f2c.h f2ch.add getarg_.c getenv_.c h_abs.c h_dim.c h_dnnt.c h_indx.c h_len.c h_mod.c h_nint.c h_sign.c hl_ge.c hl_gt.c hl_le.c hl_lt.c i_abs.c i_dim.c i_dnnt.c i_indx.c i_len.c i_mod.c i_nint.c i_sign.c iargc_.c l_ge.c l_gt.c l_le.c l_lt.c libF77.xsum main.c makefile pow_ci.c pow_dd.c pow_di.c pow_hh.c pow_ii.c pow_qq.c pow_ri.c pow_zi.c pow_zz.c r_abs.c r_acos.c r_asin.c r_atan.c r_atn2.c r_cnjg.c r_cos.c r_cosh.c r_dim.c r_exp.c r_imag.c r_int.c r_lg10.c r_log.c r_mod.c r_nint.c r_sign.c r_sin.c r_sinh.c r_sqrt.c r_tan.c r_tanh.c s_cat.c s_cmp.c s_copy.c s_paus.c s_rnge.c s_stop.c sig_die.c signal_.c system_.c z_abs.c z_cos.c z_div.c z_exp.c z_log.c z_sin.c z_sqrt.c ----------------------------------------------------------- path: /netlib/clapack/f2clibs/F2CLIBS/libI77/ ----------------------------------------------------------- Notice README Version.c backspace.c close.c dfe.c dolio.c due.c endfile.c err.c f2c.h f2ch.add fio.h fmt.c fmt.h fmtlib.c fp.h iio.c ilnw.c inquire.c libI77.xsum lio.h lread.c lwrite.c makefile open.c rawio.h rdfmt.c rewind.c rsfe.c rsli.c rsne.c sfe.c sue.c typesize.c uio.c util.c wref.c wrtfmt.c wsfe.c wsle.c wsne.c xwsne.c ----------------------------------------------------------- for single precision real CLAPACK routines path: /netlib/clapack/single/ ----------------------------------------------------------- # -------------------------------------------------------- # Available SIMPLE and DIVIDE AND CONQUER DRIVER routines: # -------------------------------------------------------- .depend scsum1.c second.c sgbtf2.c sgebd2.c sgehd2.c sgelq2.c sgeql2.c sgeqr2.c sgerq2.c sgesv.c for Solves a general system of linear equations AX=B. gams d2a1 sgbsv.c for Solves a general banded system of linear equations AX=B. gams d2a2 sgetf2.c sgtsv.c for Solves a general tridiagonal system of linear equations AX=B. gams d2a2a slabad.c slabrd.c slacon.c slacpy.c sladiv.c slae2.c slaebz.c slaed0.c slaed1.c slaed2.c slaed3.c slaed4.c slaed5.c slaed6.c slaed7.c slaed8.c slaed9.c slaeda.c slaein.c slaev2.c slaexc.c slag2.c slags2.c slagtf.c slagtm.c slagts.c slahqr.c slahrd.c slaic1.c slaln2.c slamch.c slamrg.c slangb.c slange.c slangt.c slanhs.c slansb.c slansp.c slanst.c slansy.c slantb.c slantp.c slantr.c slanv2.c slapll.c slapmt.c slapy2.c slapy3.c slaqgb.c slaqge.c slaqsb.c slaqsp.c slaqsy.c slaqtr.c slar2v.c slarf.c slarfb.c slarfg.c slarft.c slarfx.c slargv.c slarnv.c slartg.c slartv.c slaruv.c slas2.c slascl.c slaset.c slasq1.c slasq2.c slasq3.c slasq4.c slasr.c slasrt.c slassq.c slasv2.c slaswp.c slasy2.c slasyf.c slatbs.c slatps.c slatrd.c slatrs.c slatzm.c slauu2.c slauum.c sorg2l.c sorg2r.c sorgl2.c sorgr2.c sorm2l.c sorm2r.c sorml2.c sormr2.c spbtf2.c sposv.c for Solves a symmetric positive definite system of linear equations AX=B. gams d2b1b spotf2.c sppsv.c for Solves a symmetric positive definite system of linear equations AX=B, where A is held in packed storage. gams d2b1b spbsv.c for Solves a symmetric positive definite banded system of linear equations AX=B. gams d2b2 sptsv.c for Solves a symmetric positive definite tridiagonal system of linear equations AX=B. gams d2b2a srscl.c ssygs2.c ssysv.c for Solves a real symmetric indefinite system of linear equations AX=B. gams d2b1a sspsv.c for Solves a real symmetric indefinite system of linear equations AX=B, where A is held in packed storage. gams d2b1a sgels.c for Computes the least squares solution to an over-determined system of linear equations, A X=B or A**H X=B, or the minimum norm solution of an under-determined system, where A is a general rectangular matrix of full rank, using a QR or LQ factorization of A. gams d9a1 sgglse.c for Solves the LSE (Constrained Linear Least Squares Problem) using the GRQ (Generalized RQ) factorization gams d9b1 sggglm.c for Solves the GLM (Generalized Linear Regression Model) using the GQR (Generalized QR) factorization ssyev.c for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric matrix. gams d4a1 ssyevd.c for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a1 sspev.c for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric matrix in packed storage. gams d4a1 sspevd.c for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric matrix in packed storage. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a1 ssbev.c for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric band matrix. gams d4a1, d4a6 ssbevd.c for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric band matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a1, d4a6 sstev.c for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric tridiagonal matrix. gams d4a1, d4a5 sstevd.c for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric tridiagonal matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a1, d4a5 sgees.c for Computes the eigenvalues and Schur factorization of a general matrix, and orders the factorization so that selected eigenvalues are at the top left of the Schur form. gams d4a2 sgeev.c for Computes the eigenvalues and left and right eigenvectors of a general matrix. gams d4a2 sgesvd.c for Computes the singular value decomposition (SVD) of a general rectangular matrix. gams d6 ssygv.c for Computes all eigenvalues and the eigenvectors of a generalized symmetric-definite generalized eigenproblem, Ax= lambda Bx, ABx= lambda x, or BAx= lambda x. gams d4b1 sspgv.c for Computes all eigenvalues and eigenvectors of a generalized symmetric-definite generalized eigenproblem, Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, where A and B are in packed storage. gams d4b1 ssbgv.c for Computes all the eigenvalues, and optionally, the eigenvectors of a real generalized symmetric-definite banded eigenproblem, of the form A*x=(lambda)*B*x. A and B are assumed to be symmetric and banded, and B is also positive definite. sgegs.c for Computes the generalized eigenvalues, Schur form, and left and/or right Schur vectors for a pair of nonsymmetric matrices sgegv.c for Computes the generalized eigenvalues, and left and/or right generalized eigenvectors for a pair of nonsymmetric matrices sggsvd.c for Computes the Generalized Singular Value Decomposition # --------------------------------- # Available EXPERT DRIVER routines: # --------------------------------- sgesvx.c for Solves a general system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2a1 sgbsvx.c for Solves a general banded system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2a2 sgtsvx.c for Solves a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2a2a sposvx.c for Solves a symmetric positive definite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2b1b sppsvx.c for Solves a symmetric positive definite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2b1b spbsvx.c for Solves a symmetric positive definite banded system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2b2 sptsvx.c for Solves a symmetric positive definite tridiagonal system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2b2a ssysvx.c for Solves a real symmetric indefinite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2b1a sspsvx.c for Solves a real symmetric indefinite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2b1a sgelsx.c for Computes the minimum norm least squares solution to an over- or under-determined system of linear equations A X=B, using a complete orthogonal factorization of A. gams d9a1 sgelss.c for Computes the minimum norm least squares solution to an over- or under-determined system of linear equations A X=B, using the singular value decomposition of A. gams d9a1 ssyevx.c for Computes selected eigenvalues and eigenvectors of a symmetric matrix. gams d4a1 sspevx.c for Computes selected eigenvalues and eigenvectors of a symmetric matrix in packed storage. gams d4a1 ssbevx.c for Computes selected eigenvalues and eigenvectors of a symmetric band matrix. gams d4a1, d4a6 sstevx.c for Computes selected eigenvalues and eigenvectors of a real symmetric tridiagonal matrix. gams d4a1, d4a5 sgeesx.c for Computes the eigenvalues and Schur factorization of a general matrix, orders the factorization so that selected eigenvalues are at the top left of the Schur form, and computes reciprocal condition numbers for the average of the selected eigenvalues, and for the associated right invariant subspace. gams d4a2 sgeevx.c for Computes the eigenvalues and left and right eigenvectors of a general matrix, with preliminary balancing of the matrix, and computes reciprocal condition numbers for the eigenvalues and right eigenvectors. gams d4a2 # --------------------------------- # Available COMPUTATIONAL routines: # --------------------------------- sbdsqr.c for Computes the singular value decomposition (SVD) of a real bidiagonal matrix, using the bidiagonal QR algorithm. gams d6 sdisna.c for Computes the reciprocal condition numbers for the eigenvectors of a real symmetric or complex Hermitian matrix or for the left or right singular vectors of a general matrix. sgbbrd.c Reduces a general band matrix to real upper bidiagonal form by an orthogonal transformation. sgbcon.c for Estimates the reciprocal of the condition number of a general band matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by SGBTRF. gams d2a2 sgbequ.c for Computes row and column scalings to equilibrate a general band matrix and reduce its condition number. gams d2a2 sgbrfs.c for Improves the computed solution to a general banded system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2a2 sgbtrf.c for Computes an LU factorization of a general band matrix, using partial pivoting with row interchanges. gams d2a2 sgbtrs.c for Solves a general banded system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by SGBTRF. gams d2a2 sgebak.c for Transforms eigenvectors of a balanced matrix to those of the original matrix supplied to SGEBAL. gams d4c4 sgebal.c for Balances a general matrix in order to improve the accuracy of computed eigenvalues. gams d4c1a sgebrd.c for Reduces a general rectangular matrix to real bidiagonal form by an orthogonal transformation. gams d6 sgecon.c for Estimates the reciprocal of the condition number of a general matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by SGETRF. gams d2a1 sgeequ.c for Computes row and column scalings to equilibrate a general rectangular matrix and reduce its condition number. gams d2a1 sgehrd.c for Reduces a general matrix to upper Hessenberg form by an orthogonal similarity transformation. gams d4c1b2 sgelqf.c for Computes an LQ factorization of a general rectangular matrix. gams d5 sgeqlf.c for Computes a QL factorization of a general rectangular matrix. gams d5 sgeqpf.c for Computes a QR factorization with column pivoting of a general rectangular matrix. gams d5 sgeqrf.c for Computes a QR factorization of a general rectangular matrix. gams d5 sgerfs.c for Improves the computed solution to a general system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2a1 sgerqf.c for Computes an RQ factorization of a general rectangular matrix. gams d5 sgetrf.c for Computes an LU factorization of a general matrix, using partial pivoting with row interchanges. gams d2a1 sgetri.c for Computes the inverse of a general matrix, using the LU factorization computed by SGETRF. gams d2a1 sgetrs.c for Solves a general system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by SGETRF. gams d2a1 sggbak.c for Forms the right or left eigenvectors of the generalized eigenvalue problem by backward transformation on the computed eigenvectors of the balanced pair of matrices output by SGGBAL. sggbal.c for Balances a pair of general real matrices for the generalized eigenvalue problem A x = lambda B x. sgghrd.c for Reduces a pair of real matrices to generalized upper Hessenberg form using orthogonal transformations sggqrf.c for Computes a generalized QR factorization of a pair of matrices. sggrqf.c for Computes a generalized RQ factorization of a pair of matrices. sggsvp.c for Computes orthogonal matrices as a preprocessing step for computing the generalized singular value decomposition sgtcon.c for Estimates the reciprocal of the condition number of a general tridiagonal matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by SGTTRF. gams d2a2a sgtrfs.c for Improves the computed solution to a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2a2a sgttrf.c for Computes an LU factorization of a general tridiagonal matrix, using partial pivoting with row interchanges. gams d2a2a sgttrs.c for Solves a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by SGTTRF. gams d2a2a shgeqz.c for Implements a single-/double-shift version of the QZ method for finding the generalized eigenvalues of the equation det(A - w(i) B) = 0 shsein.c for Computes specified right and/or left eigenvectors of an upper Hessenberg matrix by inverse iteration. gams d4c3 shseqr.c for Computes the eigenvalues and Schur factorization of an upper Hessenberg matrix, using the multishift QR algorithm. gams d4c2b sopgtr.c for Generates the orthogonal transformation matrix from a reduction to tridiagonal form determined by SSPTRD. gams d4c1b1 sopmtr.c for Multiplies a general matrix by the orthogonal transformation matrix from a reduction to tridiagonal form determined by SSPTRD. gams d4c4 sorgbr.c for Generates the orthogonal transformation matrices from a reduction to bidiagonal form determined by SGEBRD. gams d6 sorghr.c for Generates the orthogonal transformation matrix from a reduction to Hessenberg form determined by SGEHRD. gams d4c1b2 sorglq.c for Generates all or part of the orthogonal matrix Q from an LQ factorization determined by SGELQF. gams d5 sorgql.c for Generates all or part of the orthogonal matrix Q from a QL factorization determined by SGEQLF. gams d5 sorgqr.c for Generates all or part of the orthogonal matrix Q from a QR factorization determined by SGEQRF. gams d5 sorgrq.c for Generates all or part of the orthogonal matrix Q from an RQ factorization determined by SGERQF. gams d5 sorgtr.c for Generates the orthogonal transformation matrix from a reduction to tridiagonal form determined by SSYTRD. gams d4c1b1 sormbr.c for Multiplies a general matrix by one of the orthogonal transformation matrices from a reduction to bidiagonal form determined by SGEBRD. gams d6 sormhr.c for Multiplies a general matrix by the orthogonal transformation matrix from a reduction to Hessenberg form determined by SGEHRD. gams d4c4 sormlq.c for Multiplies a general matrix by the orthogonal matrix from an LQ factorization determined by SGELQF. gams d5 sormql.c for Multiplies a general matrix by the orthogonal matrix from a QL factorization determined by SGEQLF. gams d5 sormqr.c for Multiplies a general matrix by the orthogonal matrix from a QR factorization determined by SGEQRF. gams d5 sormrq.c for Multiplies a general matrix by the orthogonal matrix from an RQ factorization determined by SGERQF. gams d5 sormtr.c for Multiplies a general matrix by the orthogonal transformation matrix from a reduction to tridiagonal form determined by SSYTRD. gams d4c4 spbcon.c for Estimates the reciprocal of the condition number of a symmetric positive definite band matrix, using the Cholesky factorization computed by SPBTRF. gams d2b2 spbequ.c for Computes row and column scalings to equilibrate a symmetric positive definite band matrix and reduce its condition number. gams d2b2 spbrfs.c for Improves the computed solution to a symmetric positive definite banded system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2b2 spbstf.c for Computes a split Cholesky factorization of a real symmetric positive definite band matrix. spbtrf.c for Computes the Cholesky factorization of a symmetric positive definite band matrix. gams d2b2 spbtrs.c for Solves a symmetric positive definite banded system of linear equations AX=B, using the Cholesky factorization computed by SPBTRF. gams d2b2 spocon.c for Estimates the reciprocal of the condition number of a symmetric positive definite matrix, using the Cholesky factorization computed by SPOTRF. gams d2b1b spoequ.c for Computes row and column scalings to equilibrate a symmetric positive definite matrix and reduce its condition number. gams d2b1b sporfs.c for Improves the computed solution to a symmetric positive definite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2b1b spotrf.c for Computes the Cholesky factorization of a symmetric positive definite matrix. gams d2b1b spotri.c for Computes the inverse of a symmetric positive definite matrix, using the Cholesky factorization computed by SPOTRF. gams d2b1b spotrs.c for Solves a symmetric positive definite system of linear equations AX=B, using the Cholesky factorization computed by SPOTRF. gams d2b1b sppcon.c for Estimates the reciprocal of the condition number of a symmetric positive definite matrix in packed storage, using the Cholesky factorization computed by SPPTRF. gams d2b1b sppequ.c for Computes row and column scalings to equilibrate a symmetric positive definite matrix in packed storage and reduce its condition number. gams d2b1b spprfs.c for Improves the computed solution to a symmetric positive definite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2b1b spptrf.c for Computes the Cholesky factorization of a symmetric positive definite matrix in packed storage. gams d2b1b spptri.c for Computes the inverse of a symmetric positive definite matrix in packed storage, using the Cholesky factorization computed by SPPTRF. gams d2b1b spptrs.c for Solves a symmetric positive definite system of linear equations AX=B, where A is held in packed storage, using the Cholesky factorization computed by SPPTRF. gams d2b1b sptcon.c for Computes the reciprocal of the condition number of a symmetric positive definite tridiagonal matrix, using the LDL**H factorization computed by SPTTRF. gams d2b2a spteqr.c for Computes all eigenvalues and eigenvectors of a real symmetric positive definite tridiagonal matrix, by computing the SVD of its bidiagonal Cholesky factor. gams d4c2a sptrfs.c for Improves the computed solution to a symmetric positive definite tridiagonal system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2b2a spttrf.c for Computes the LDL**H factorization of a symmetric positive definite tridiagonal matrix. gams d2b2a spttrs.c for Solves a symmetric positive definite tridiagonal system of linear equations, using the LDL**H factorization computed by SPTTRF. gams d2b2a ssbgst.c for Reduces a real symmetric-definite banded generalized eigenproblem A x = lambda B x to standard form, where B has been factorized by SPBSTF (Crawford's algorithm). ssbtrd.c for Reduces a symmetric band matrix to real symmetric tridiagonal form by an orthogonal similarity transformation. gams d4c1b1 sspcon.c for Estimates the reciprocal of the condition number of a real symmetric indefinite matrix in packed storage, using the factorization computed by SSPTRF. gams d2b1a sspgst.c for Reduces a symmetric-definite generalized eigenproblem Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, to standard form, where A and B are held in packed storage, and B has been factorized by SPPTRF. gams d4c1c ssprfs.c for Improves the computed solution to a real symmetric indefinite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2b1a ssptrd.c for Reduces a symmetric matrix in packed storage to real symmetric tridiagonal form by an orthogonal similarity transformation. gams d4c1b1 ssptrf.c for Computes the factorization of a real symmetric-indefinite matrix in packed storage, using the diagonal pivoting method. gams d2b1a ssptri.c for Computes the inverse of a real symmetric indefinite matrix in packed storage, using the factorization computed by SSPTRF. gams d2b1a ssptrs.c for Solves a real symmetric indefinite system of linear equations AX=B, where A is held in packed storage, using the factorization computed by SSPTRF. gams d2b1a sstebz.c for Computes selected eigenvalues of a real symmetric tridiagonal matrix by bisection. gams d4c2a sstedc.c for Computes all eigenvalues and, optionally, eigenvectors of a symmetric tridiagonal matrix using the divide and conquer algorithm. sstein.c for Computes selected eigenvectors of a real symmetric tridiagonal matrix by inverse iteration. gams d4c3 ssteqr.c for Computes all eigenvalues and eigenvectors of a real symmetric tridiagonal matrix, using the implicit QL or QR algorithm. gams d4a1, d4a5, d4c2a ssterf.c for Computes all eigenvalues of a real symmetric tridiagonal matrix, using a root-free variant of the QL or QR algorithm. gams d4c2a ssycon.c for Estimates the reciprocal of the condition number of a real symmetric indefinite matrix, using the factorization computed by SSYTRF. gams d2b1a ssygst.c for Reduces a symmetric-definite generalized eigenproblem Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, to standard form, where B has been factorized by SPOTRF. gams d4c1c ssyrfs.c for Improves the computed solution to a real symmetric indefinite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2b1a ssytd2.c ssytf2.c ssytrd.c for Reduces a symmetric matrix to real symmetric tridiagonal form by an orthogonal similarity transformation. gams d4c1b1 ssytrf.c for Computes the factorization of a real symmetric-indefinite matrix, using the diagonal pivoting method. gams d2b1a ssytri.c for Computes the inverse of a real symmetric indefinite matrix, using the factorization computed by SSYTRF. gams d2b1a ssytrs.c for Solves a real symmetric indefinite system of linear equations AX=B, using the factorization computed by SSPTRF. gams d2b1a stbcon.c for Estimates the reciprocal of the condition number of a triangular band matrix, in either the 1-norm or the infinity-norm. gams d2a2, d2a3 stbrfs.c for Provides forward and backward error bounds for the solution of a triangular banded system of linear equations AX=B, A**T X=B or A**H X=B. gams d2a2, d2a3 stbtrs.c for Solves a triangular banded system of linear equations AX=B, A**T X=B or A**H X=B. gams d2a2, d2a3 stgevc.c for Computes some or all of the right and/or left generalized eigenvectors of a pair of upper triangular matrices. gams d4b2 stgsja.c for Computes the generalized singular value decomposition of two real upper triangular (or trapezoidal) matrices as output by SGGSVP. gams d6 stpcon.c for Estimates the reciprocal of the condition number of a triangular matrix in packed storage, in either the 1-norm or the infinity-norm. gams d2a3 stprfs.c for Provides forward and backward error bounds for the solution of a triangular system of linear equations AX=B, A**T X=B or A**H X=B, where A is held in packed storage. gams d2a3 stptri.c for Computes the inverse of a triangular matrix in packed storage. gams d2a3 stptrs.c for Solves a triangular system of linear equations AX=B, A**T X=B or A**H X=B, where A is held in packed storage. gams d2a3 strcon.c for Estimates the reciprocal of the condition number of a triangular matrix, in either the 1-norm or the infinity-norm. gams d2a3 strevc.c for Computes some or all of the right and/or left eigenvectors of an upper quasi-triangular matrix. gams d4c3 strexc.c for Reorders the Schur factorization of a matrix by an orthogonal similarity transformation. gams d4c strrfs.c for Provides forward and backward error bounds for the solution of a triangular system of linear equations A X=B, A**T X=B or A**H X=B. gams d2a3 strsen.c for Reorders the Schur factorization of a matrix in order to find an orthonormal basis of a right invariant subspace corresponding to selected eigenvalues, and returns reciprocal condition numbers (sensitivities) of the average of the cluster of eigenvalues and of the invariant subspace. gams d4c strsna.c for Estimates the reciprocal condition numbers (sensitivities) of selected eigenvalues and eigenvectors of an upper quasi-triangular matrix. gams d4c strsyl.c for Solves the Sylvester matrix equation A X +/- X B=C where A and B are upper quasi-triangular, and may be transposed. gams d8 strti2.c strtri.c for Computes the inverse of a triangular matrix. gams d2a3 strtrs.c for Solves a triangular system of linear equations AX=B, A**T X=B or A**H X=B. gams d2a3 stzrqf.c for Computes an RQ factorization of an upper trapezoidal matrix. gams d5 ----------------------------------------------------------- for Subdirectory containing the testing routines for path: /netlib/clapack/testing/ ----------------------------------------------------------- ####################################### # Index for clapack/testing # ####################################### eig/ for Subdirectory of Eigenproblem Testing lin/ for Subdirectory of Linear Equation Testing matgen/ for Subdirectory of Matrix Generation Routines (used in testing and timing directories) # ======================================= # Input Files for Linear Equation Testing # ======================================= stest.in for Data file for linear equations/linear least squares test programs prec single dtest.in for Data file for linear equations/linear least squares test programs prec double ctest.in for Data file for linear equations/linear least squares test programs prec complex ztest.in for Data file for linear equations/linear least squares test programs prec doublecomplex # ======================================= # Input Files for Eigenproblem Testing # ======================================= nep.in for Data file for testing the (s,d,c,z) Nonsymmetric Eigenproblem computational routines prec single, double, complex, doublecomplex sep.in for Data file for testing the (s,d,c,z) Symmetric Eigenproblem computational and simple/expert driver routines prec single, double, complex, doublecomplex svd.in for Data file for testing the (s,d,c,z) Singular Value Decomposition computational and simple/expert driver routines prec single, double, complex, doublecomplex sec.in for Data file for testing real Eigen Condition Routines prec single dec.in for Data file for testing real Eigen Condition Routines prec double cec.in for Data file for testing complex Eigen Condition Routines prec complex zec.in for Data file for testing complex Eigen Condition Routines prec doublecomplex sed.in for Data file for testing real Nonsymmetric Eigenvalue Driver prec single ded.in for Data file for testing real Nonsymmetric Eigenvalue Driver prec double ced.in for Data file for testing complex Nonsymmetric Eigenvalue Driver prec complex zed.in for Data file for testing complex Nonsymmetric Eigenvalue Driver prec doublecomplex sgg.in for Data file for testing the real Nonsymmetric Generalized Eigenvalue Problem routines prec single dgg.in for Data file for testing the real Nonsymmetric Generalized Eigenvalue Problem routines prec double cgg.in for Data file for testing the complex Nonsymmetric Generalized Eigenvalue Problem routines prec complex zgg.in for Data file for testing the complex Nonsymmetric Generalized Eigenvalue Problem routines prec doublecomplex ssb.in for Data file for testing real Symmetric Banded Eigenvalue Problem routines prec single dsb.in for Data file for testing real Symmetric Banded Eigenvalue Problem routines prec double csb.in for Data file for testing complex Symmetric Banded Eigenvalue Problem routines prec complex zsb.in for Data file for testing complex Symmetric Banded Eigenvalue Problem routines prec doublecomplex ssg.in for Data file for testing real Symmetric Generalized Eigenvalue Problem routines prec single dsg.in for Data file for testing real Symmetric Generalized Eigenvalue Problem routines prec double csg.in for Data file for testing complex Symmetric Generalized Eigenvalue Problem routines prec complex zsg.in for Data file for testing complex Symmetric Generalized Eigenvalue Problem routines prec doublecomplex sbal.in for Data file for testing SGEBAL prec single dbal.in for Data file for testing DGEBAL prec double cbal.in for Data file for testing CGEBAL prec complex zbal.in for Data file for testing ZGEBAL prec doublecomplex sbak.in for Data file for testing SGEBAK prec single dbak.in for Data file for testing DGEBAK prec double cbak.in for Data file for testing CGEBAK prec complex zbak.in for Data file for testing ZGEBAK prec doublecomplex sgbal.in for Data file for testing SGGBAL prec single dgbal.in for Data file for testing DGGBAL prec double cgbal.in for Data file for testing CGGBAL prec complex zgbal.in for Data file for testing ZGGBAL prec doublecomplex sgbak.in for Data file for testing SGGBAK prec single dgbak.in for Data file for testing DGGBAK prec double cgbak.in for Data file for testing CGGBAK prec complex zgbak.in for Data file for testing ZGGBAK prec doublecomplex sbb.in for Data file for testing banded SVD routines prec single dbb.in for Data file for testing banded SVD routines prec double cbb.in for Data file for testing banded SVD routines prec complex zbb.in for Data file for testing banded SVD routines prec complex16 glm.in for Data file for testing the (s, d, c, z) GLM routines prec single, double, complex, doublecomplex gqr.in for Data file for testing the (s, d, c, z) GQR and GRQ routines prec single, double, complex, doublecomplex gsv.in for Data file for testing the (s, d, c, z) GSVD routines prec single, double, complex, doublecomplex lse.in for Data file for testing the (s, d, c, z) LSE routines prec single, double, complex, doublecomplex ----------------------------------------------------------- for Subdirectory of Eigenproblem Testing path: /netlib/clapack/testing/eig/ ----------------------------------------------------------- ####################################### # Index for clapack/testing/eig # ####################################### alahdg.c alareq.c alarqg.c alasmg.c alasum.c alasvm.c cbdt01.c cbdt02.c cbdt03.c cchkgb.c cchkgk.c cchkgl.c cget02.c cget10.c cget22.c cget23.c cget24.c cget35.c cget36.c cget37.c cget38.c cget51.c cget52.c cglmts.c cgqrts.c cgrqts.c cgsvts.c chbt21.c chet21.c chet22.c chkxer.c chpt21.c chst01.c clarfy.c clarhs.c clatm4.c clsets.c csbmv.c csgt01.c cslect.c cstt21.c cunt01.c cunt03.c dbdt01.c dbdt02.c dbdt03.c dchkgb.c dchkgk.c dchkgl.c dget02.c dget10.c dget22.c dget23.c dget24.c dget31.c dget32.c dget33.c dget34.c dget35.c dget36.c dget37.c dget38.c dget39.c dget51.c dget52.c dget53.c dglmts.c dgqrts.c dgrqts.c dgsvts.c dhst01.c dlafts.c dlahd2.c dlarfy.c dlarhs.c dlasum.c dlatb9.c dlatm4.c dlsets.c dort01.c dort03.c dsbt21.c dsgt01.c dslect.c dspt21.c dstech.c dstect.c dstt21.c dstt22.c dsvdch.c dsvdct.c dsxt1.c dsyt21.c dsyt22.c sbdt01.c sbdt02.c sbdt03.c schkgb.c schkgk.c schkgl.c sget02.c sget10.c sget22.c sget23.c sget24.c sget31.c sget32.c sget33.c sget34.c sget35.c sget36.c sget37.c sget38.c sget39.c sget51.c sget52.c sget53.c sglmts.c sgqrts.c sgrqts.c sgsvts.c shst01.c slafts.c slahd2.c slarfy.c slarhs.c slasum.c slatb9.c slatm4.c slsets.c sort01.c sort03.c ssbt21.c ssgt01.c sslect.c sspt21.c sstech.c sstect.c sstt21.c sstt22.c ssvdch.c ssvdct.c ssxt1.c ssyt21.c ssyt22.c xerbla.c for Special version of this routine used in testing ilaenv.c for Special version of this routine for testing and timing purposes xlaenv.c for Resets ILAENV values for testing purposes # ========================================== # Available Eigenproblem Testing Routines # ========================================== schkee.c for Test program driver for eigenproblem testing prec single dchkee.c for Test program driver for eigenproblem testing prec double cchkee.c for Test program driver for eigenproblem testing prec complex zbdt01.c zbdt02.c zbdt03.c zchkee.c for Test program driver for eigenproblem testing prec doublecomplex # === schkbb.c for Checks the banded SVD routine SGBBRD prec single dchkbb.c for Checks the banded SVD routine DGBBRD prec double cchkbb.c for Checks the banded SVD routine CGBBRD prec complex zchkbb.c for Checks the banded SVD routine ZGBBRD prec doublecomplex schkbd.c for Checks the SVD routines (SGEBRD, SORGBR, SBDSQR) prec single dchkbd.c for Checks the SVD routines (DGEBRD, DORGBR, DBDSQR) prec double cchkbd.c for Checks the SVD routines (CGEBRD, CUNGBR, CBDSQR) prec complex, doublecomplex zchkbd.c for Checks the SVD routines (ZGEBRD, ZUNGBR, ZBDSQR) prec doublecomplex sdrvbd.c for Checks the SVD driver SGESVD prec single ddrvbd.c for Checks the SVD driver DGESVD prec double cdrvbd.c for Checks the SVD driver CGESVD prec complex zchkgb.c zchkgk.c zchkgl.c zdrvbd.c for Checks the SVD driver ZGESVD prec doublecomplex serrbd.c for Tests the error exits for SGEBRD,SORGBR,SORMBR,SBDSQR prec single derrbd.c for Tests the error exits for DGEBRD,DORGBR,DORMBR,DBDSQR prec double cerrbd.c for Tests the error exits for CGEBRD,CUNGBR,CUNMBR,CBDSQR prec complex zerrbd.c for Tests the error exits for ZGEBRD,ZUNGBR,ZUNMBR,ZBDSQR prec doublecomplex # === schkbk.c for Tests SGEBAK prec single dchkbk.c for Tests DGEBAK prec double cchkbk.c for Tests CGEBAK prec complex zchkbk.c for Tests ZGEBAK prec doublecomplex # === schkbl.c for Tests SGEBAL prec single dchkbl.c for Tests DGEBAL prec double cchkbl.c for Tests CGEBAL prec complex zchkbl.c for Tests ZGEBAL prec doublecomplex # === schkec.c for Tests the eigen- condition estimation routines STRSYL, STREXC, STRSNA, STRSEN prec single dchkec.c for Tests the eigen- condition estimation routines DTRSYL, DTREXC, DTRSNA, DTRSEN prec double cchkec.c for Tests the eigen- condition estimation routines CTRSYL, CTREXC, CTRSNA, CTRSEN prec complex zchkec.c for Tests the eigen- condition estimation routines ZTRSYL, ZTREXC, ZTRSNA, ZTRSEN prec doublecomplex serrec.c for Tests the error exits for the eigen- condition estimation routines (STRSYL, STREXC, STRSNA, STRSEN) prec single derrec.c for Tests the error exits for the eigen- condition estimation routines (DTRSYL, DTREXC, DTRSNA, DTRSEN) prec double cerrec.c for Tests the error exits for the eigen- condition estimation routines (CTRSYL, CTREXC, CTRSNA, CTRSEN) prec complex zerrec.c for Tests the error exits for the eigen- condition estimation routines (ZTRSYL, ZTREXC, ZTRSNA, ZTRSEN) prec doublecomplex # === schkgg.c for Tests SGGHRD, SHGEQZ, and STGEVC prec single dchkgg.c for Tests DGGHRD, DHGEQZ, and DTGEVC prec double cchkgg.c for Tests CGGHRD, CHGEQZ, and CTGEVC prec complex zchkgg.c for Tests ZGGHRD, ZHGEQZ, and ZTGEVC prec doublecomplex sdrvgg.c for Tests SGEGS and SGEGV prec single ddrvgg.c for Tests DGEGS and DGEGV prec double cdrvgg.c for Tests CGEGS and CGEGV prec complex zdrvgg.c for Tests ZGEGS and ZGEGV prec doublecomplex serrgg.c for Tests the error exits for SGGHRD, SHGEQZ, and STGEVC prec single derrgg.c for Tests the error exits for DGGHRD, DHGEQZ, and DTGEVC prec double cerrgg.c for Tests the error exits for CGGHRD, CHGEQZ, and CTGEVC prec complex zerrgg.c for Tests the error exits for ZGGHRD, ZHGEQZ, and ZTGEVC prec doublecomplex # === schkbk.c for Testing SGGBAK prec single dchkbk.c for Testing DGGBAK prec double cchkbk.c for Testing CGGBAK prec complex zchkbk.c for Testing ZGGBAK prec doublecomplex # === schkbl.c for Testing SGGBAL prec single dchkbl.c for Testing DGGBAL prec double cchkbl.c for Testing CGGBAL prec complex zchkbl.c for Testing ZGGBAL prec doublecomplex # === schkhs.c for Checks the nonsymmetric eigenvalue problem routines (SGEHRD, SORGHR, SORMHR, SHSEQR, STREVC, and SHSEIN) prec single dchkhs.c for Checks the nonsymmetric eigenvalue problem routines (DGEHRD, DORGHR, DORMHR, DHSEQR, DTREVC, and DHSEIN) prec double cchkhs.c for Checks the nonsymmetric eigenvalue problem routines (CGEHRD, CUNGHR, CUNMHR, CHSEQR, CTREVC, and CHSEIN) prec complex zchkhs.c for Checks the nonsymmetric eigenvalue problem routines (ZGEHRD, ZUNGHR, ZUNMHR, ZHSEQR, ZTREVC, and ZHSEIN) prec doublecomplex serrhs.c for Tests the error exits for SGEHRD, SORGHR, SORMHR, SHSEQR, SHSEIN, and STREVC prec single derrhs.c for Tests the error exits for DGEHRD, DORGHR, DORMHR, DHSEQR, DHSEIN, and DTREVC prec double cerrhs.c for Tests the error exits for CGEHRD, CUNGHR, CUNMHR, CHSEQR, CHSEIN, and CTREVC prec complex zerrhs.c for Tests the error exits for ZGEHRD, ZUNGHR, ZUNMHR, ZHSEQR, ZHSEIN, and ZTREVC prec doublecomplex sdrves.c for Checks the nonsymmetric eigenvalue (Schur form) problem driver SGEES prec single ddrves.c for Checks the nonsymmetric eigenvalue (Schur form) problem driver DGEES prec double cdrves.c for Checks the nonsymmetric eigenvalue (Schur form) problem driver CGEES prec complex zdrves.c for Checks the nonsymmetric eigenvalue (Schur form) problem driver ZGEES prec doublecomplex sdrvsx.c for Checks the nonsymmetric eigenvalue (Schur form) problem expert driver SGEESX prec single ddrvsx.c for Checks the nonsymmetric eigenvalue (Schur form) problem expert driver DGEESX prec double cdrvsx.c for Checks the nonsymmetric eigenvalue (Schur form) problem expert driver CGEESX prec complex zdrvsx.c for Checks the nonsymmetric eigenvalue (Schur form) problem expert driver ZGEESX prec doublecomplex sdrvev.c for Checks the nonsymmetric eigenvalue problem driver SGEEV prec single ddrvev.c for Checks the nonsymmetric eigenvalue problem driver DGEEV prec double cdrvev.c for Checks the nonsymmetric eigenvalue problem driver CGEEV prec complex zdrvev.c for Checks the nonsymmetric eigenvalue problem driver ZGEEV prec doublecomplex sdrvvx.c for Checks the nonsymmetric eigenvalue problem expert driver SGEEVX prec single ddrvvx.c for Checks the nonsymmetric eigenvalue problem expert driver DGEEVX prec double cdrvvx.c for Checks the nonsymmetric eigenvalue problem expert driver CGEEVX prec complex zdrvvx.c for Checks the nonsymmetric eigenvalue problem expert driver ZGEEVX prec doublecomplex serred.c for Tests the error exits for the eigenvalue driver routines (SGEEV,SGEES,SGEEVX,SGEESX,SGESVD) prec single derred.c for Tests the error exits for the eigenvalue driver routines (DGEEV,DGEES,DGEEVX,DGEESX,DGESVD) prec double cerred.c for Tests the error exits for the eigenvalue driver routines (CGEEV,CGEES,CGEEVX,CGEESX,CGESVD) prec complex zerred.c for Tests the error exits for the eigenvalue driver routines (ZGEEV,ZGEES,ZGEEVX,ZGEESX,ZGESVD) prec doublecomplex # === schksb.c for Tests SSBTRD (the reduction of a symmetric band matrix to tridiagonal form, used with the symmetric eigenvalue problem prec single dchksb.c for Tests DSBTRD (the reduction of a symmetric band matrix to tridiagonal form, used with the symmetric eigenvalue problem prec double cchkhb.c for Tests CHBTRD (the reduction of a Hermitian band matrix to tridiagonal form), used with the Hermitian eigenvalue problem prec complex zchkhb.c for Tests ZHBTRD (the reduction of a Hermitian band matrix to tridiagonal form), used with the Hermitian eigenvalue problem prec doublecomplex # === schkst.c for Checks the symmetric eigenvalue problem routines (SSYTRD, R,SSTEBZ,SSTEIN) prec single dchkst.c for Checks the symmetric eigenvalue problem routines (DSYTRD, R,DSTEBZ,DSTEIN) prec double cchkst.c for Checks the (complex) hermitian eigenvalue problem routines EQR,SSTEBZ,CSTEIN) prec complex zchkst.c for Checks the (complex) hermitian eigenvalue problem routines EQR,DSTEBZ,ZSTEIN) prec doublecomplex sdrvst.c for Checks the symmetric eigenvalue problem drivers , (SSTEV,SSTEVX,SSYEV,SSYEVX,SSPEV,SSPEVX,SSB EV,SSBEVX) prec single ddrvst.c for Checks the symmetric eigenvalue problem drivers , (DSTEV,DSTEVX,DSYEV,DSYEVX,DSPEV,DSPEVX,DSB EV,DSBEVX) prec double cdrvst.c for Checks the Hermitian eigenvalue problem drivers (CHEEV,CHEEVX,CHPEV,CHPEVX,CHBEV,CHBEVX) prec complex zdrvst.c for Checks the Hermitian eigenvalue problem drivers (ZHEEV,ZHEEVX,ZHPEV,ZHPEVX,ZHBEV,ZHBEVX) prec doublecomplex serrst.c for Tests the error exits for SSYTRD,SORGTR,SORMTR,SSPTRD, ,SPTEQR,SSBTRD prec single derrst.c for Tests the error exits for DSYTRD,DORGTR,DORMTR,DSPTRD, ,DPTEQR,DSBTRD prec double cerrst.c for Tests the error exits for CHETRD, CUNGTR, CUNMTR, CHPTRD, CUPGTR, CUPMTR, CSTEQR, CSTEIN, CPTEQR, and CHBTRD prec complex zerrst.c for Tests the error exits for ZHETRD, ZUNGTR, ZUNMTR, ZHPTRD, ZUPGTR, ZUPMTR, ZSTEQR, ZSTEIN, ZPTEQR, and ZHBTRD prec doublecomplex sdrvsg.c for Checks the symmetric generalized eigenvalue problem routines (SSYGST, SSYTRD, SORGTR, SSTEQR, SSTERF) prec single ddrvsg.c for Checks the symmetric generalized eigenvalue problem routines (DSYGST, DSYTRD, DORGTR, DSTEQR, DSTERF) prec double cdrvsg.c for Checks the complex hermitian generalized eigenvalue problem routines (CHEGST, CHETRD, CUNGTR, CSTEQR, SSTERF, CSTEIN) prec complex, doublecomplex zdrvsg.c for Checks the complex hermitian generalized eigenvalue problem routines (ZHEGST, ZHETRD, ZUNGTR, ZSTEQR, SSTERF, ZSTEIN) prec doublecomplex # === sckglm.c for Tests SGGGLM prec single dckglm.c for Tests DGGGLM prec double cckglm.c for Tests CGGGLM prec complex zckglm.c for Tests ZGGGLM prec doublecomplex # === sckgqr.c for Tests SGGQRF and SGGRQF prec single dckgqr.c for Tests DGGQRF and DGGRQF prec double cckgqr.c for Tests CGGQRF and CGGRQF prec complex zckgqr.c for Tests ZGGQRF and ZGGRQF prec doublecomplex # === sckgsv.c for Tests SGGSVD prec single dckgsv.c for Tests DGGSVD prec double cckgsv.c for Tests CGGSVD prec complex zckgsv.c for Tests ZGGSVD prec doublecomplex # === scklse.c for Tests SGGLSE prec single dcklse.c for Tests DGGLSE prec double ccklse.c for Tests CGGLSE prec complex zcklse.c for Tests ZGGLSE prec doublecomplex zget02.c zget10.c zget22.c zget23.c zget24.c zget35.c zget36.c zget37.c zget38.c zget51.c zget52.c zglmts.c zgqrts.c zgrqts.c zgsvts.c zhbt21.c zhet21.c zhet22.c zhpt21.c zhst01.c zlarfy.c zlarhs.c zlatm4.c zlsets.c zsbmv.c zsgt01.c zslect.c zstt21.c zunt01.c zunt03.c ----------------------------------------------------------- for Subdirectory of Linear Equation Testing path: /netlib/clapack/testing/lin/ ----------------------------------------------------------- ####################################### # Index for clapack/testing/lin # ####################################### aladhd.c alaerh.c alaesm.c alahd.c alareq.c alasum.c alasvm.c cgbt01.c cgbt02.c cgbt05.c cget01.c cget02.c cget03.c cget04.c cget07.c cgtt01.c cgtt02.c cgtt05.c chet01.c chkxer.c chpt01.c claipd.c claptm.c clarhs.c clatb4.c clatsp.c clatsy.c clattb.c clattp.c clattr.c clavhe.c clavhp.c clavsp.c clavsy.c clqt01.c clqt02.c clqt03.c cpbt01.c cpbt02.c cpbt05.c cpot01.c cpot02.c cpot03.c cpot05.c cppt01.c cppt02.c cppt03.c cppt05.c cptt01.c cptt02.c cptt05.c cqlt01.c cqlt02.c cqlt03.c cqpt01.c cqrt01.c cqrt02.c cqrt03.c cqrt11.c cqrt12.c cqrt13.c cqrt14.c cqrt15.c cqrt16.c cqrt17.c crqt01.c crqt02.c crqt03.c csbmv.c cspt01.c cspt02.c cspt03.c csyt01.c csyt02.c csyt03.c ctbt02.c ctbt03.c ctbt05.c ctbt06.c ctpt01.c ctpt02.c ctpt03.c ctpt05.c ctpt06.c ctrt01.c ctrt02.c ctrt03.c ctrt05.c ctrt06.c ctzt01.c ctzt02.c dgbt01.c dgbt02.c dgbt05.c dget01.c dget02.c dget03.c dget04.c dget06.c dget07.c dgtt01.c dgtt02.c dgtt05.c dlaord.c dlaptm.c dlarhs.c dlatb4.c dlattb.c dlattp.c dlattr.c dlavsp.c dlavsy.c dlqt01.c dlqt02.c dlqt03.c dpbt01.c dpbt02.c dpbt05.c dpot01.c dpot02.c dpot03.c dpot05.c dppt01.c dppt02.c dppt03.c dppt05.c dptt01.c dptt02.c dptt05.c dqlt01.c dqlt02.c dqlt03.c dqpt01.c dqrt01.c dqrt02.c dqrt03.c dqrt11.c dqrt12.c dqrt13.c dqrt14.c dqrt15.c dqrt16.c dqrt17.c drqt01.c drqt02.c drqt03.c dspt01.c dsyt01.c dtbt02.c dtbt03.c dtbt05.c dtbt06.c dtpt01.c dtpt02.c dtpt03.c dtpt05.c dtpt06.c dtrt01.c dtrt02.c dtrt03.c dtrt05.c dtrt06.c dtzt01.c dtzt02.c sgbt01.c sgbt02.c sgbt05.c sget01.c sget02.c sget03.c sget04.c sget06.c sget07.c sgtt01.c sgtt02.c sgtt05.c slaord.c slaptm.c slarhs.c slatb4.c slattb.c slattp.c slattr.c slavsp.c slavsy.c slqt01.c slqt02.c slqt03.c spbt01.c spbt02.c spbt05.c spot01.c spot02.c spot03.c spot05.c sppt01.c sppt02.c sppt03.c sppt05.c sptt01.c sptt02.c sptt05.c sqlt01.c sqlt02.c sqlt03.c sqpt01.c sqrt01.c sqrt02.c sqrt03.c sqrt11.c sqrt12.c sqrt13.c sqrt14.c sqrt15.c sqrt16.c sqrt17.c srqt01.c srqt02.c srqt03.c sspt01.c ssyt01.c stbt02.c stbt03.c stbt05.c stbt06.c stpt01.c stpt02.c stpt03.c stpt05.c stpt06.c strt01.c strt02.c strt03.c strt05.c strt06.c stzt01.c stzt02.c xerbla.c for Special version of this routine used in testing ilaenv.c for Special version used in conjunction with XLAENV xlaenv.c for Resets ILAENV values for testing purposes # ========================================== # Available Linear Equation Testing Routines # ========================================== schkaa.c for Test program driver for linear equation testing prec single dchkaa.c for Test program driver for linear equation testing prec double cchkaa.c for Test program driver for linear equation testing prec complex zchkaa.c for Test program driver for linear equation testing prec doublecomplex # === schkeq.c for Tests equilibration routines (SGEEQU, SGBEQU, SPOEQU, SPPEQU and SPBEQU) prec single dchkeq.c for Tests equilibration routines (DGEEQU, DGBEQU, DPOEQU, # DPPEQU and DPBEQU) prec double cchkeq.c for Tests equilibration routines (CGEEQU, CGBEQU) prec complex zchkeq.c for Tests equilibration routines (ZGEEQU, ZGBEQU) prec doublecomplex # === schkgb.c for Tests SGBTRF, SGBTRS, SGBRFS, and SGBCON prec single dchkgb.c for Tests DGBTRF, DGBTRS, DGBRFS, and DGBCON prec double cchkgb.c for Tests CGBTRF, CGBTRS, CGBRFS, and CGBCON prec complex zchkgb.c for Tests ZGBTRF, ZGBTRS, ZGBRFS, and ZGBCON prec doublecomplex sdrvgb.c for Tests the driver routines SGBSV and SGBSVX prec single ddrvgb.c for Tests the driver routines DGBSV and DGBSVX prec double cdrvgb.c for Tests the driver routines CGBSV and CGBSVX prec complex zdrvgb.c for Tests the driver routines ZGBSV and ZGBSVX prec doublecomplex schkge.c for Tests SGETRF, SGETRI, SGETRS, SGERFS, and SGECON prec single dchkge.c for Tests DGETRF, DGETRI, DGETRS, DGERFS, and DGECON prec double cchkge.c for Tests CGETRF, CGETRI, CGETRS, CGERFS, and CGECON prec complex zchkge.c for Tests ZGETRF, ZGETRI, ZGETRS, ZGERFS, and ZGECON prec doublecomplex sdrvge.c for Tests the driver routines SGESV and SGESVX prec single ddrvge.c for Tests the driver routines DGESV and DGESVX prec double cdrvge.c for Tests the driver routines CGESV and CGESVX prec complex zdrvge.c for Tests the driver routines ZGESV and ZGESVX prec doublecomplex serrge.c for Tests the error exits for the SGE- and SGB- routines prec single derrge.c for Tests the error exits for the DGE- and DGB- routines prec double cerrge.c for Tests the error exits for the CGE- and CGB- routines prec complex zerrge.c for Tests the error exits for the ZGE- and ZGB- routines prec doublecomplex # === schkgt.c for Tests SGTTRF, SGTTRS, SGTRFS, and SGTCON prec single dchkgt.c for Tests DGTTRF, DGTTRS, DGTRFS, and DGTCON prec double cchkgt.c for Tests CGTTRF, CGTTRS, CGTRFS, and CGTCON prec complex zchkgt.c for Tests ZGTTRF, ZGTTRS, ZGTRFS, and ZGTCON prec doublecomplex sdrvgt.c for Tests SGTSV and SGTSVX prec single ddrvgt.c for Tests DGTSV and DGTSVX prec double cdrvgt.c for Tests CGTSV and CGTSVX prec complex zdrvgt.c for Tests ZGTSV and ZGTSVX prec doublecomplex serrgt.c for Tests the error exits for the tridiagonal routines (SGT- and SPT-) prec single derrgt.c for Tests the error exits for the tridiagonal routines (DGT- and DPT-) prec double cerrgt.c for Tests the error exits for the tridiagonal routines (CGT- and CPT-) prec complex zerrgt.c for Tests the error exits for the tridiagonal routines (ZGT- and ZPT-) prec doublecomplex # === schklq.c for Tests SGELQF, SORGLQ and SORMLQ prec single dchklq.c for Tests DGELQF, DORGLQ and DORMLQ prec double cchklq.c for Tests CGELQF, CUNGLQ and CUNMLQ prec complex zchklq.c for Tests ZGELQF, ZUNGLQ and ZUNMLQ prec doublecomplex serrlq.c for Tests the error exits for the LQ routines prec single derrlq.c for Tests the error exits for the LQ routines prec double cerrlq.c for Tests the error exits for the LQ routines prec complex zerrlq.c for Tests the error exits for the LQ routines prec doublecomplex # === schkpb.c for Tests SPBTRF, SPBTRS, SPBRFS, and SPBCON prec single dchkpb.c for Tests DPBTRF, DPBTRS, DPBRFS, and DPBCON prec double cchkpb.c for Tests CPBTRF, CPBTRS, CPBRFS, and CPBCON prec complex zchkpb.c for Tests ZPBTRF, ZPBTRS, ZPBRFS, and ZPBCON prec doublecomplex sdrvpb.c for Tests the driver routines SPBSV and SPBSVX prec single ddrvpb.c for Tests the driver routines DPBSV and DPBSVX prec double cdrvpb.c for Tests the driver routines CPBSV and CPBSVX prec complex zdrvpb.c for Tests the driver routines ZPBSV and ZPBSVX prec doublecomplex schkpo.c for Tests SPOTRF, SPOTRI, SPOTRS, SPORFS, and SPOCON prec single dchkpo.c for Tests DPOTRF, DPOTRI, DPOTRS, DPORFS, and DPOCON prec double cchkpo.c for Tests CPOTRF, CPOTRI, CPOTRS, CPORFS, and CPOCON prec complex zchkpo.c for Tests ZPOTRF, ZPOTRI, ZPOTRS, ZPORFS, and ZPOCON prec doublecomplex sdrvpo.c for Tests the driver routines SPOSV and SPOSVX prec single ddrvpo.c for Tests the driver routines DPOSV and DPOSVX prec double cdrvpo.c for Tests the driver routines CPOSV and CPOSVX prec complex zdrvpo.c for Tests the driver routines ZPOSV and ZPOSVX prec doublecomplex schkpp.c for Tests SPPTRF, SPPTRI, SPPTRS, SPPRFS, and SPPCON prec single dchkpp.c for Tests DPPTRF, DPPTRI, DPPTRS, DPPRFS, and DPPCON prec double cchkpp.c for Tests CPPTRF, CPPTRI, CPPTRS, CPPRFS, and CPPCON prec complex zchkpp.c for Tests ZPPTRF, ZPPTRI, ZPPTRS, ZPPRFS, and ZPPCON prec doublecomplex sdrvpp.c for Tests the driver routines SPPSV and SPPSVX prec single ddrvpp.c for Tests the driver routines DPPSV and DPPSVX prec double cdrvpp.c for Tests the driver routines CPPSV and CPPSVX prec complex zdrvpp.c for Tests the driver routines ZPPSV and ZPPSVX prec doublecomplex serrpo.c for Tests the error exits for the (SPB-, SPO-, SPP-) routines prec single derrpo.c for Tests the error exits for the (DPB-, DPO-, DPP-) routines prec double cerrpo.c for Tests the error exits for the (CPB-, CPO-, CPP-) routines prec complex zerrpo.c for Tests the error exits for the (ZPB-, ZPO-, ZPP-) routines prec doublecomplex # === schkpt.c for Tests SPTTRF, SPTTRS, SPTRFS, and SPTCON prec single dchkpt.c for Tests DPTTRF, DPTTRS, DPTRFS, and DPTCON prec double cchkpt.c for Tests CPTTRF, CPTTRS, CPTRFS, and CPTCON prec complex zchkpt.c for Tests ZPTTRF, ZPTTRS, ZPTRFS, and ZPTCON prec doublecomplex sdrvpt.c for Tests SPTSV and SPTSVX prec single ddrvpt.c for Tests DPTSV and DPTSVX prec double cdrvpt.c for Tests CPTSV and CPTSVX prec complex zdrvpt.c for Tests ZPTSV and ZPTSVX prec doublecomplex # === schkql.c for Tests SGEQLF, SORGQL and SORMQL prec single dchkql.c for Tests DGEQLF, DORGQL and DORMQL prec double cchkql.c for Tests CGEQLF, CUNGQL and CUNMQL prec complex zchkql.c for Tests ZGEQLF, ZUNGQL and ZUNMQL prec doublecomplex serrql.c for Tests the error exits for the QL routines prec single derrql.c for Tests the error exits for the QL routines prec double cerrql.c for Tests the error exits for the QL routines prec complex zerrql.c for Tests the error exits for the QL routines prec doublecomplex # === schkqp.c for Tests SGEQPF prec single dchkqp.c for Tests DGEQPF prec double cchkqp.c for Tests CGEQPF prec complex zchkqp.c for Tests ZGEQPF prec doublecomplex serrqp.c for Tests the error exits for SGEQPF prec single derrqp.c for Tests the error exits for DGEQPF prec double cerrqp.c for Tests the error exits for CGEQPF prec complex zerrqp.c for Tests the error exits for ZGEQPF prec doublecomplex # === schkqr.c for Tests SGEQRF, SORGQR and SORMQR prec single dchkqr.c for Tests DGEQRF, DORGQR and DORMQR prec double cchkqr.c for Tests CGEQRF, CUNGQR and CUNMQR prec complex zchkqr.c for Tests ZGEQRF, ZUNGQR and ZUNMQR prec doublecomplex serrqr.c for Tests the error exits for the QR routines prec single derrqr.c for Tests the error exits for the QR routines prec double cerrqr.c for Tests the error exits for the QR routines prec complex zerrqr.c for Tests the error exits for the QR routines prec doublecomplex # === schkrq.c for Tests SGERQF, SORGRQ and SORMRQ prec single dchkrq.c for Tests DGERQF, DORGRQ and DORMRQ prec double cchkrq.c for Tests CGERQF, CUNGRQ and CUNMRQ prec complex zchkrq.c for Tests ZGERQF, ZUNGRQ and ZUNMRQ prec doublecomplex serrrq.c for Tests the error exits for the RQ routines prec single derrrq.c for Tests the error exits for the RQ routines prec double cerrrq.c for Tests the error exits for the RQ routines prec complex zerrrq.c for Tests the error exits for the RQ routines prec doublecomplex # === schksp.c for Tests SSPTRF, SSPTRI, SSPTRS, SSPRFS, and SSPCON prec single dchksp.c for Tests DSPTRF, DSPTRI, DSPTRS, DSPRFS, and DSPCON prec double cchksp.c for Tests CSPTRF, CSPTRI, CSPTRS, CSPRFS, and CSPCON prec complex zchksp.c for Tests ZSPTRF, ZSPTRI, ZSPTRS, ZSPRFS, and ZSPCON prec doublecomplex cchkhp.c for Tests CHPTRF, CHPTRI, CHPTRS, CHPRFS, and CHPCON prec complex zchkhp.c for Tests ZHPTRF, ZHPTRI, ZHPTRS, ZHPRFS, and ZHPCON prec doublecomplex sdrvsp.c for Tests the driver routines SSPSV and SSPSVX prec single ddrvsp.c for Tests the driver routines DSPSV and DSPSVX prec double cdrvsp.c for Tests the driver routines CSPSV and CSPSVX prec complex zdrvsp.c for Tests the driver routines ZSPSV and ZSPSVX prec doublecomplex cdrvhp.c for Tests the driver routines CHPSV and CHPSVX prec complex zdrvhp.c for Tests the driver routines ZHPSV and ZHPSVX prec doublecomplex schksy.c for Tests SSYTRF, SSYTRI, SSYTRS, SSYRFS, and SSYCON prec single dchksy.c for Tests DSYTRF, DSYTRI, DSYTRS, DSYRFS, and DSYCON prec double cchksy.c for Tests CSYTRF, CSYTRI, CSYTRS, CSYRFS, and CSYCON prec complex zchksy.c for Tests ZSYTRF, ZSYTRI, ZSYTRS, ZSYRFS, and ZSYCON prec doublecomplex cchkhe.c for Tests CHETRF, CHETRI, CHETRS, CHERFS, and CHECON prec complex zchkhe.c for Tests ZHETRF, ZHETRI, ZHETRS, ZHERFS, and ZHECON prec doublecomplex sdrvsy.c for Tests the driver routines SSYSV and SSYSVX prec single ddrvsy.c for Tests the driver routines DSYSV and DSYSVX prec double cdrvsy.c for Tests the driver routines SSYSV and SSYSVX prec complex zdrvsy.c for Tests the driver routines ZSYSV and ZSYSVX prec doublecomplex cdrvhe.c for Tests the driver routines CHESV and CHESVX prec complex zdrvhe.c for Tests the driver routines ZHESV and ZHESVX prec doublecomplex serrsy.c for Tests the error exits for the (SSP- and SSY-) routines prec single derrsy.c for Tests the error exits for the (DSP- and DSY-) routines prec double cerrsy.c for Tests the error exits for the (DSP- and DSY-) routines prec complex zerrsy.c for Tests the error exits for the (DSP- and DSY-) routines prec doublecomplex cerrhe.c for Tests the error exits for the (CHE- and CHP-) routines prec complex zerrhe.c for Tests the error exits for the (ZHE- and ZHP-) routines prec doublecomplex # === schktb.c for Tests STBTRI, STBTRS, STBRFS, and STBCON, and SLATBS prec single dchktb.c for Tests DTBTRI, DTBTRS, DTBRFS, and DTBCON, and DLATBS prec double cchktb.c for Tests CTBTRI, CTBTRS, CTBRFS, and CTBCON, and CLATBS prec complex zchktb.c for Tests ZTBTRI, ZTBTRS, ZTBRFS, and ZTBCON, and ZLATBS prec doublecomplex schktp.c for Tests STPTRI, STPTRS, STPRFS, and STPCON, and SLATPS prec single dchktp.c for Tests DTPTRI, DTPTRS, DTPRFS, and DTPCON, and DLATPS prec double cchktp.c for Tests CTPTRI, CTPTRS, CTPRFS, and CTPCON, and CLATPS prec complex zchktp.c for Tests ZTPTRI, ZTPTRS, ZTPRFS, and ZTPCON, and ZLATPS prec doublecomplex schktr.c for Tests STRTRI, STRTRS, STRRFS, and STRCON, and SLATRS prec single dchktr.c for Tests DTRTRI, DTRTRS, DTRRFS, and DTRCON, and DLATRS prec double cchktr.c for Tests CTRTRI, CTRTRS, CTRRFS, and CTRCON, and CLATRS prec complex zchktr.c for Tests ZTRTRI, ZTRTRS, ZTRRFS, and ZTRCON, and ZLATRS prec doublecomplex serrtr.c for Tests the error exits for the -TR routines prec single derrtr.c for Tests the error exits for the -TR routines prec double cerrtr.c for Tests the error exits for the -TR routines prec complex zerrtr.c for Tests the error exits for the -TR routines prec doublecomplex # === schktz.c for Tests STZRQF prec single dchktz.c for Tests DTZRQF prec double cchktz.c for Tests CTZRQF prec complex zchktz.c for Tests ZTZRQF prec doublecomplex serrtz.c for Tests the error exits for STZRQF prec single derrtz.c for Tests the error exits for DTZRQF prec double cerrtz.c for Tests the error exits for CTZRQF prec complex zerrtz.c for Tests the error exits for ZTZRQF prec doublecomplex # === sdrvls.c for Tests the least squares driver routines SGELS, SGELSX, and SGELSS prec single ddrvls.c for Tests the least squares driver routines DGELS, DGELSX, and DGELSS prec double cdrvls.c for Tests the least squares driver routines CGELS, CGELSX, and CGELSS prec complex zdrvls.c for Tests the least squares driver routines ZGELS, ZGELSX, and ZGELSS prec doublecomplex serrls.c for Tests the error exits for the (SGELS, SGELSS, SGELSX) routines prec single derrls.c for Tests the error exits for the (DGELS, DGELSS, DGELSX) routines prec double cerrls.c for Tests the error exits for the (CGELS, CGELSS, CGELSX) routines prec complex zerrls.c for Tests the error exits for the (ZGELS, ZGELSS, ZGELSX) routines prec doublecomplex # === serrvx.c for Tests the error exits for the (-SV and -SVX) routines prec single derrvx.c for Tests the error exits for the (-SV and -SVX) routines prec double cerrvx.c for Tests the error exits for the (-SV and -SVX) routines prec complex zerrvx.c for Tests the error exits for the (-SV and -SVX) routines prec doublecomplex # ========================================== # Other Available Testing Routines # ========================================== sgelqs.c for Compute a minimum norm solution using the LQ factorization computed by SGELQF prec single dgelqs.c for Compute a minimum norm solution using the LQ factorization computed by DGELQF prec double cgelqs.c for Compute a minimum norm solution using the LQ factorization computed by CGELQF prec complex zgbt01.c zgbt02.c zgbt05.c zgelqs.c for Compute a minimum norm solztion using the LQ factorization computed by ZGELQF prec doublecomplex sgeqls.c for Solve the least squares problem using the QL factorization computed by SGEQLF prec single dgeqls.c for Solve the least squares problem using the QL factorization computed by DGEQLF prec double cgeqls.c for Solve the least squares problem using the QL factorization computed by CGEQLF prec complex zgeqls.c for Solve the least squares problem using the QL factorization computed by ZGEQLF prec doublecomplex sgeqrs.c for Solve the least squares problem using the QR factorization computed by SGEQRF prec single dgeqrs.c for Solve the least squares problem using the QR factorization computed by DGEQRF prec double cgeqrs.c for Solve the least squares problem using the QR # factorization computed by CGEQRF prec complex zgeqrs.c for Solve the least squares problem using the QR factorization computed by ZGEQRF prec doublecomplex sgerqs.c for Compute a minimum-norm solution using the RQ # factorization computed by SGERQF prec single dgerqs.c for Compute a minimum-norm solution using the RQ factorization computed by DGERQF prec double cgerqs.c for Compute a minimum-norm solution using the RQ # factorization computed by CGERQF prec complex zgerqs.c for Compute a minimum-norm solution using the RQ factorization computed by ZGERQF prec doublecomplex zget01.c zget02.c zget03.c zget04.c zget07.c zgtt01.c zgtt02.c zgtt05.c zhet01.c zhpt01.c zlaipd.c zlaptm.c zlarhs.c zlatb4.c zlatsp.c zlatsy.c zlattb.c zlattp.c zlattr.c zlavhe.c zlavhp.c zlavsp.c zlavsy.c zlqt01.c zlqt02.c zlqt03.c zpbt01.c zpbt02.c zpbt05.c zpot01.c zpot02.c zpot03.c zpot05.c zppt01.c zppt02.c zppt03.c zppt05.c zptt01.c zptt02.c zptt05.c zqlt01.c zqlt02.c zqlt03.c zqpt01.c zqrt01.c zqrt02.c zqrt03.c zqrt11.c zqrt12.c zqrt13.c zqrt14.c zqrt15.c zqrt16.c zqrt17.c zrqt01.c zrqt02.c zrqt03.c zsbmv.c zspt01.c zspt02.c zspt03.c zsyt01.c zsyt02.c zsyt03.c ztbt02.c ztbt03.c ztbt05.c ztbt06.c ztpt01.c ztpt02.c ztpt03.c ztpt05.c ztpt06.c ztrt01.c ztrt02.c ztrt03.c ztrt05.c ztrt06.c ztzt01.c ztzt02.c ----------------------------------------------------------- for Subdirectory of Matrix Generation Routines (used path: /netlib/clapack/testing/matgen/ ----------------------------------------------------------- # #========= index for clapack/testing/matgen ========= # slagge.c for Generates a real general matrix prec single dlagge.c for Generates a real general matrix prec double clagge.c for Generates a complex general matrix prec complex zlagge.c for Generates a complex general matrix prec doublecomplex claghe.c for Generates a complex Hermitian matrix prec complex zlaghe.c for Generates a complex Hermitian matrix prec doublecomplex slagsy.c for Generates a real symmetric matrix prec single dlagsy.c for Generates a real symmetric matrix prec double clagsy.c for Generates a complex symmetric matrix prec complex zlagsy.c for Generates a complex symmetric matrix prec doublecomplex slaran.c for Returns a random real number from a uniform (0,1) distribution prec single dlaran.c for Returns a random real number from a uniform (0,1) distribution prec double slarge.c for Pre- and post-multiples a real general matrix with a random orthogonal matrix prec single dlarge.c for Pre- and post-multiples a real general matrix with a random orthogonal matrix prec double clarge.c for Pre- and post-multiples a complex general matrix with a random unitary matrix prec complex zlarge.c for Pre- and post-multiples a complex general matrix with a random unitary matrix prec doublecomplex slarnd.c for Returns a random real number from a uniform or normal distribution prec single dlarnd.c for Returns a random real number from a uniform or normal distribution prec double clarnd.c for Returns a random complex number from a uniform or normal distribution prec complex zlarnd.c for Returns a random complex number from a uniform or normal distribution prec doublecomplex slaror.c for Pre- or post-multiplies a real general matrix by a random orthogonal matrix prec single dlaror.c for Pre- or post-multiplies a real general matrix by a random orthogonal matrix prec double claror.c for Pre- or post-multiplies a complex general matrix by a random unitary matrix prec complex zlaror.c for Pre- or post-multiplies a complex general matrix by a random unitary matrix prec doublecomplex slarot.c for Applies a (Givens) rotation to two adjacent rows or columns, where one element of the first and/or last column/row may be a separate variable. prec single dlarot.c for Applies a (Givens) rotation to two adjacent rows or columns, where one element of the first and/or last column/row may be a separate variable. prec double clarot.c for Applies a (Givens) rotation to two adjacent rows or columns, where one element of the first and/or last column/row may be a separate variable. prec complex zlarot.c for Applies a (Givens) rotation to two adjacent rows or columns, where one element of the first and/or last column/row may be a separate variable. prec doublecomplex slatm1.c for Called by SLATMR to generate random test matrices prec single dlatm1.c for Called by DLATMR to generate random test matrices prec double clatm1.c for Called by CLATMR to generate random test matrices prec complex zlatm1.c for Called by ZLATMR to generate random test matrices prec doublecomplex slatm2.c for Called by SLATMR to generate random test matrices prec single dlatm2.c for Called by DLATMR to generate random test matrices prec double clatm2.c for Called by CLATMR to generate random test matrices prec complex zlatm2.c for Called by ZLATMR to generate random test matrices prec doublecomplex slatm3.c for Called by SLATMR to generate random test matrices prec single dlatm3.c for Called by DLATMR to generate random test matrices prec double clatm3.c for Called by CLATMR to generate random test matrices prec complex zlatm3.c for Called by ZLATMR to generate random test matrices prec doublecomplex slatme.c for Generates random non-symmetric square matrices with specified eigenvalues prec single dlatme.c for Generates random non-symmetric square matrices with specified eigenvalues prec double clatme.c for Generates random non-symmetric square matrices with specified eigenvalues prec complex zlatme.c for Generates random non-symmetric square matrices with specified eigenvalues prec doublecomplex slatmr.c for Generates random matrices of various types prec single dlatmr.c for Generates random matrices of various types prec double clatmr.c for Generates random matrices of various types prec complex zlatmr.c for Generates random matrices of various types prec doublecomplex slatms.c for generates random matrices with specified singular values (or symmetric with specified eigenvalues) prec single dlatms.c for generates random matrices with specified singular values (or symmetric with specified eigenvalues) prec double clatms.c for generates random matrices with specified singular values (or Hermitian with specified eigenvalues) prec complex zlatms.c for generates random matrices with specified singular values (or Hermitian with specified eigenvalues) prec doublecomplex ----------------------------------------------------------- for Subdirectory containing the timing routines for path: /netlib/clapack/timing/ ----------------------------------------------------------- ####################################### # Index for clapack/timing # ####################################### eig/ for Subdirectory of Eigenproblem Timing lin/ for Subdirectory of Linear Equation Timing large/ for Shar file of LARGE timing data files (xBLASA.in, xBLASB.in, xBLASC.in, xTIME.in, xBAND.in, xTIME2.in, xGEPTIM.in, xNEPTIM.in, xSEPTIM.in, and xSVDTIM.in) prec single, double, complex, doublecomplex # ==== # NOTE: SMALL and LARGE refer to the size of the matrices being # ==== generated. Because of nondifferentiation between upper # and lowercase letters, the LARGE data set can only be obtained # via the large.shar file. # ======================================= # Input Files for BLAS Timing # ======================================= sblasa.in for SMALL Data file for timing BLAS (parameters M, N, and K) with K small prec single dblasa.in for SMALL Data file for timing BLAS (parameters M, N, and K) with K small prec double cblasa.in for SMALL Data file for timing BLAS (parameters M, N, and K) with K small prec complex zblasa.in for SMALL Data file for timing BLAS (parameters M, N, and K) with K small prec doublecomplex sblasb.in for SMALL Data file for timing BLAS (parameters M, N, and K) with M small prec single dblasb.in for SMALL Data file for timing BLAS (parameters M, N, and K) with M small prec double cblasb.in for SMALL Data file for timing BLAS (parameters M, N, and K) with M small prec complex zblasb.in for SMALL Data file for timing BLAS (parameters M, N, and K) with M small prec doublecomplex sblasc.in for SMALL Data file for timing BLAS (parameters M, N, and K) with N small prec single dblasc.in for SMALL Data file for timing BLAS (parameters M, N, and K) with N small prec double cblasc.in for SMALL Data file for timing BLAS (parameters M, N, and K) with N small prec complex zblasc.in for SMALL Data file for timing BLAS (parameters M, N, and K) with N small prec doublecomplex # ======================================= # Input Files for Linear Equation Timing # ======================================= stime.in for SMALL Data file for timing square real linear equations/linear least squares routines prec single dtime.in for SMALL Data file for timing square real linear equations/linear least squares routines prec double ctime.in for SMALL Data file for timing square complex linear equations/linear least squares routines prec complex ztime.in for SMALL Data file for timing square complex linear equations/linear least squares routines prec doublecomplex sband.in for SMALL Data file for timing banded real linear equations/linear least squares routines prec single, double, complex, doublecomplex dband.in for SMALL Data file for timing banded real linear equations/linear least squares routines prec double cband.in for SMALL Data file for timing banded complex linear equations/linear least squares routines prec complex zband.in for SMALL Data file for timing banded complex linear equations/linear least squares routines prec doublecomplex stime2.in for SMALL Data file for timing rectangular real linear equations/least squares routines prec single dtime2.in for SMALL Data file for timing rectangular real linear equations/least squares routines prec double ctime2.in for SMALL Data file for timing rectangular complex linear equations/least squares routines prec complex ztime2.in for SMALL Data file for timing rectangular complex linear equations/least squares routines prec doublecomplex # ======================================= # Input Files for Eigenproblem Timing # ======================================= sgeptim.in for SMALL Data file for timing the real Generalized Nonsymmetric Eigenproblem computational and simple driver routines prec single dgeptim.in for SMALL Data file for timing the real Generalized Nonsymmetric Eigenproblem computational and simple driver routines prec double cgeptim.in for SMALL Data file for timing the complex Generalized Nonsymmetric Eigenproblem computational and simple driver routines prec complex zgeptim.in for SMALL Data file for timing the complex Generalized Nonsymmetric Eigenproblem computational and simple driver routines prec doublecomplex sneptim.in for SMALL Data file for timing the real Nonsymmetric Eigenproblem computational and simple/expert driver routines prec single dneptim.in for SMALL Data file for timing the real Nonsymmetric Eigenproblem computational and simple/expert driver routines prec double cneptim.in for SMALL Data file for timing the complex Nonsymmetric Eigenproblem computational and simple/expert driver routines prec complex zneptim.in for SMALL Data file for timing the complex Nonsymmetric Eigenproblem computational and simple/expert driver routines prec doublecomplex sseptim.in for SMALL Data file for timing the real Symmetric Eigenproblem and Generalized Symmetric Eigenproblem computational and simple/expert driver routines prec single dseptim.in for SMALL Data file for timing the real Symmetric Eigenproblem and Generalized Symmetric Eigenproblem computational and simple/expert driver routines prec double cseptim.in for SMALL Data file for timing the complex Symmetric Eigenproblem and Generalized Symmetric Eigenproblem computational and simple/expert driver routines prec complex zseptim.in for SMALL Data file for timing the complex Symmetric Eigenproblem and Generalized Symmetric Eigenproblem computational and simple/expert driver routines prec doublecomplex ssvdtim.in for SMALL Data file for timing the real Singular Value Decomposition computational and simple/expert driver routines prec single dsvdtim.in for SMALL Data file for timing the real Singular Value Decomposition computational and simple/expert driver routines prec double csvdtim.in for SMALL Data file for timing the complex Singular Value Decomposition computational and simple/expert driver routines prec complex zsvdtim.in for SMALL Data file for timing the complex Singular Value Decomposition computational and simple/expert driver routines prec doublecomplex ----------------------------------------------------------- for Subdirectory of Eigenproblem Timing path: /netlib/clapack/timing/eig/ ----------------------------------------------------------- ####################################### # Index for clapack/timing/eig # ####################################### atimin.c claqzh.c clatm4.c dlaqzh.c dlatm4.c dmflop.c dopla.c dopla2.c dprtbe.c dprtbg.c dprtbr.c dprtbs.c dprtbv.c eigsrc/ for Subdirectory containing instrumented LAPACK routines ilaenv.c for Special version to be used in conjunction with XLAENV slaqzh.c slatm4.c smflop.c sopla.c sopla2.c sprtbe.c sprtbg.c sprtbr.c sprtbs.c sprtbv.c xlaenv.c for Resets ILAENV values for timing purposes # ========================================== # Available Eigenproblem Timing Routines # ========================================== stimee.c for Timing program driver for eigenvalue problem timing prec single dtimee.c for Timing program driver for eigenvalue problem timing prec double ctimee.c for Timing program driver for eigenvalue problem timing prec complex zlaqzh.c zlatm4.c ztimee.c for Timing program driver for eigenvalue problem timing prec doublecomplex # === seispack.c for Instrumented EISPACK routines used for timing purposes prec single deispack.c for Instrumented EISPACK routines used for timing purposes prec double ceispack.c for Instrumented EISPACK routines used for timing purposes prec complex zeispack.c for Instrumented EISPACK routines used for timing purposes prec doublecomplex # === stim21.c for Times the nonsymmetric eigenvalue problem LAPACK routines prec single dtim21.c for Times the nonsymmetric eigenvalue problem LAPACK routines prec double ctim21.c for Times the nonsymmetric eigenvalue problem LAPACK routines prec complex ztim21.c for Times the nonsymmetric eigenvalue problem LAPACK routines prec doublecomplex # === stim22.c for Times the symmetric eigenvalue problem LAPACK routines prec single dtim22.c for Times the symmetric eigenvalue problem LAPACK routines prec double ctim22.c for Times the symmetric eigenvalue problem LAPACK routines prec complex ztim22.c for Times the symmetric eigenvalue problem LAPACK routines prec doublecomplex # === stim26.c for Times the singular value decomposition LAPACK routines prec single dtim26.c for Times the singular value decomposition LAPACK routines prec double ctim26.c for Times the singular value decomposition LAPACK routines prec complex ztim26.c for Times the singular value decomposition LAPACK routines prec doublecomplex # === stim51.c for Times the generalized nonsymmetric eigenvalue problem LAPACK routines prec single dtim51.c for Times the generalized nonsymmetric eigenvalue problem LAPACK routines prec double ctim51.c for Times the generalized nonsymmetric eigenvalue problem LAPACK routines prec complex ztim51.c for Times the generalized nonsymmetric eigenvalue problem LAPACK routines prec doublecomplex ----------------------------------------------------------- for Subdirectory containing instrumented LAPACK path: /netlib/clapack/timing/eig/eigsrc/ ----------------------------------------------------------- ######################################### # Index for clapack/timing/eig/eigsrc # ######################################### # =================================================== # Available Instrumented Eigenproblem LAPACK Routines # =================================================== sbdsqr.c for instrumented SBDSQR to count operations prec single dbdsqr.c for instrumented DBDSQR to count operations prec double cbdsqr.c for instrumented CBDSQR to count operations prec complex zbdsqr.c for instrumented ZBDSQR to count operations prec doublecomplex sgghrd.c for instrumented SGGHRD to count operations prec single dgghrd.c for instrumented DGGHRD to count operations prec double cgghrd.c for instrumented CGGHRD to count operations prec complex zgghrd.c for instrumented ZGGHRD to count operations prec doublecomplex shgeqz.c for instrumented SHGEQZ to count operations prec single dhgeqz.c for instrumented DHGEQZ to count operations prec double chgeqz.c for instrumented CHGEQZ to count operations prec complex zhgeqz.c for instrumented ZHGEQZ to count operations prec doublecomplex shsein.c for instrumented SHSEIN to count operations prec single dhsein.c for instrumented DHSEIN to count operations prec double chsein.c for instrumented CHSEIN to count operations prec complex zhsein.c for instrumented ZHSEIN to count operations prec doublecomplex shseqr.c for instrumented SHSEQR to count operations prec single dhseqr.c for instrumented DHSEQR to count operations prec double chseqr.c for instrumented CHSEQR to count operations prec complex zhseqr.c for instrumented ZHSEQR to count operations prec doublecomplex slaebz.c for instrumented SLAEBZ to count operations prec single dlaebz.c for instrumented DLAEBZ to count operations prec double slaed0.c for instrumented SLAED0 to count operations prec single dlaed0.c for instrumented DLAED0 to count operations prec double claed0.c for instrumented CLAED0 to count operations prec complex zlaed0.c for instrumented ZLAED0 to count operations prec doublecomplex slaed1.c for instrumented SLAED1 to count operations prec single dlaed1.c for instrumented DLAED1 to count operations prec double slaed2.c for instrumented SLAED2 to count operations prec single dlaed2.c for instrumented DLAED2 to count operations prec double slaed3.c for instrumented SLAED3 to count operations prec single dlaed3.c for instrumented DLAED3 to count operations prec double slaed4.c for instrumented SLAED4 to count operations prec single dlaed4.c for instrumented DLAED4 to count operations prec double slaed5.c for instrumented SLAED5 to count operations prec single dlaed5.c for instrumented DLAED5 to count operations prec double slaed6.c for instrumented SLAED6 to count operations prec single dlaed6.c for instrumented DLAED6 to count operations prec double slaed7.c for instrumented SLAED7 to count operations prec single dlaed7.c for instrumented DLAED7 to count operations prec double claed7.c for instrumented CLAED7 to count operations prec complex zlaed7.c for instrumented ZLAED7 to count operations prec doublecomplex slaed8.c for instrumented SLAED8 to count operations prec single dlaed8.c for instrumented DLAED8 to count operations prec double claed8.c for instrumented CLAED8 to count operations prec complex zlaed8.c for instrumented ZLAED8 to count operations prec doublecomplex slaed9.c for instrumented SLAED9 to count operations prec single dlaed9.c for instrumented DLAED9 to count operations prec double slaeda.c for instrumented SLAEDA to count operations prec single dlaeda.c for instrumented DLAEDA to count operations prec double slaein.c for instrumented SLAEIN to count operations prec single dlaein.c for instrumented DLAEIN to count operations prec double claein.c for instrumented CLAEIN to count operations prec complex zlaein.c for instrumented ZLAEIN to count operations prec doublecomplex slahqr.c for instrumented SLAHQR to count operations prec single dlahqr.c for instrumented DLAHQR to count operations prec double clahqr.c for instrumented CLAHQR to count operations prec complex zlahqr.c for instrumented ZLAHQR to count operations prec doublecomplex slasq1.c for instrumented SLASQ1 to count operations prec single dlasq1.c for instrumented DLASQ1 to count operations prec double slasq2.c for instrumented SLASQ2 to count operations prec single dlasq2.c for instrumented DLASQ2 to count operations prec double slasq3.c for instrumented SLASQ3 to count operations prec single dlasq3.c for instrumented DLASQ3 to count operations prec double slasq4.c for instrumented SLASQ4 to count operations prec single dlasq4.c for instrumented DLASQ4 to count operations prec double spteqr.c for instrumented SPTEQR to count operations prec single dpteqr.c for instrumented DPTEQR to count operations prec double cpteqr.c for instrumented CPTEQR to count operations prec complex zpteqr.c for instrumented ZPTEQR to count operations prec doublecomplex sstebz.c for instrumented SSTEBZ to count operations prec single dstebz.c for instrumented DSTEBZ to count operations prec double sstedc.c for instrumented SSTEDC to count operations prec single dstedc.c for instrumented DSTEDC to count operations prec double cstedc.c for instrumented CSTEDC to count operations prec complex zstedc.c for instrumented ZSTEDC to count operations prec doublecomplex sstein.c for instrumented SSTEIN to count operations prec single dstein.c for instrumented DSTEIN to count operations prec double cstein.c for instrumented CSTEIN to count operations prec complex zstein.c for instrumented ZSTEIN to count operations prec doublecomplex ssteqr.c for instrumented SSTEQR to count operations prec single dsteqr.c for instrumented DSTEQR to count operations prec double csteqr.c for instrumented CSTEQR to count operations prec complex zsteqr.c for instrumented ZSTEQR to count operations prec doublecomplex ssterf.c for instrumented SSTERF to count operations prec single dsterf.c for instrumented DSTERF to count operations prec double stgevc.c for instrumented STGEVC to count operations prec single dtgevc.c for instrumented DTGEVC to count operations prec double ctgevc.c for instrumented CTGEVC to count operations prec complex ztgevc.c for instrumented ZTGEVC to count operations prec doublecomplex strevc.c for instrumented STREVC to count operations prec single dtrevc.c for instrumented DTREVC to count operations prec double ctrevc.c for instrumented CTREVC to count operations prec complex ztrevc.c for instrumented ZTREVC to count operations prec doublecomplex ----------------------------------------------------------- for Shar file of LARGE timing data files (xBLASA.in, path: /netlib/clapack/timing/large/ ----------------------------------------------------------- CBAND.in CBLASA.in CBLASB.in CBLASC.in CGEPTIM.in CNEPTIM.in CSEPTIM.in CSVDTIM.in CTIME.in CTIME2.in DBAND.in DBLASA.in DBLASB.in DBLASC.in DGEPTIM.in DNEPTIM.in DSEPTIM.in DSVDTIM.in DTIME.in DTIME2.in SBAND.in SBLASA.in SBLASB.in SBLASC.in SGEPTIM.in SNEPTIM.in SSEPTIM.in SSVDTIM.in STIME.in STIME2.in ZBAND.in ZBLASA.in ZBLASB.in ZBLASC.in ZGEPTIM.in ZNEPTIM.in ZSEPTIM.in ZSVDTIM.in ZTIME.in ZTIME2.in ----------------------------------------------------------- for Subdirectory of Linear Equation Timing path: /netlib/clapack/timing/lin/ ----------------------------------------------------------- ####################################### # Index for clapack/timing/lin # ####################################### atimck.c atimin.c dmflop.c dopaux.c dopbl2.c dopbl3.c dopgb.c dopla.c dprtb2.c dprtb3.c dprtb4.c dprtb5.c dprtbl.c icopy.c ilaenv.c for Special version used in conjunction with XLAENV smflop.c sopaux.c sopbl2.c sopbl3.c sopgb.c sopla.c sprtb2.c sprtb3.c sprtb4.c sprtb5.c sprtbl.c xlaenv.c for Resets ILAENV values for timing purposes # ========================================== # Available Linear Equation Timing Routines # ========================================== stimaa.c for Timing program driver for linear equation timing prec single dtimaa.c for Timing program driver for linear equation timing prec double ctimaa.c for Timing program driver for linear equation timing prec complex ztimaa.c for Timing program driver for linear equation timing prec doublecomplex # === seispk.c for Instrumented eispack routines used in timing comparisons prec single deispk.c for Instrumented eispack routines used in timing comparisons prec double # === slinpk.c for Instrumented linpack routines used in timing comparisons prec single dlinpk.c for Instrumented linpack routines used in timing comparisons prec double clinpk.c for Instrumented linpack routines used in timing comparisons prec complex zlinpk.c for Instrumented linpack routines used in timing comparisons prec doublecomplex # === stimmg.c for Generates a toeplitz test matrix prec single dtimmg.c for Generates a toeplitz test matrix prec double ctimmg.c for Generates a toeplitz test matrix prec complex ztimmg.c for Generates a toeplitz test matrix prec doublecomplex # === stimb2.c for Times the BLAS 2 routines prec single dtimb2.c for Times the BLAS 2 routines prec double ctimb2.c for Times the BLAS 2 routines prec complex ztimb2.c for Times the BLAS 2 routines prec doublecomplex stimb3.c for Times the BLAS 3 routines prec single dtimb3.c for Times the BLAS 3 routines prec double ctimb3.c for Times the BLAS 3 routines prec complex ztimb3.c for Times the BLAS 3 routines prec doublecomplex stimmm.c for Times SGEMM prec single dtimmm.c for Times DGEMM prec double ctimmm.c for Times CGEMM prec complex ztimmm.c for Times ZGEMM prec doublecomplex stimmv.c for Times individual BLAS 2 routines prec single dtimmv.c for Times individual BLAS 2 routines prec double ctimmv.c for Times individual BLAS 2 routines prec complex ztimmv.c for Times individual BLAS 2 routines prec doublecomplex # === stimbr.c for Times SGEBRD, SORGBR, and SORMBR prec single dtimbr.c for Times DGEBRD, DORGBR, and DORMBR prec double ctimbr.c for Times CGEBRD, CUNGBR, and CUNMBR prec complex ztimbr.c for Times ZGEBRD, ZUNGBR, and ZUNMBR prec doublecomplex # === stimgb.c for Times SGBTRF and SGBTRS prec single dtimgb.c for Times DGBTRF and DGBTRS prec double ctimgb.c for Times CGBTRF and CGBTRS prec complex ztimgb.c for Times ZGBTRF and ZGBTRS prec doublecomplex # === stimge.c for Times SGETRF, SGETRS, and SGETRI prec single dtimge.c for Times DGETRF, DGETRS, and DGETRI prec double ctimge.c for Times CGETRF, CGETRS, and CGETRI prec complex ztimge.c for Times ZGETRF, ZGETRS, and ZGETRI prec doublecomplex # === stimgt.c for Times SGTTRF, -TRS, -SV, and -SL. prec single dtimgt.c for Times DGTTRF, -TRS, -SV, and -SL. prec double ctimgt.c for Times CGTTRF, -TRS, -SV, and -SL. prec complex ztimgt.c for Times ZGTTRF, -TRS, -SV, and -SL. prec doublecomplex # === stimhr.c for Times the LAPACK routines SGEHRD, SORGHR, and SORMHR, and the EISPACK routine ORTHES prec single dtimhr.c for Times the LAPACK routines DGEHRD, DORGHR, and DORMHR, and the EISPACK routine ORTHES prec double ctimhr.c for Times the LAPACK routines CGEHRD, CUNGHR, and CUNMHR prec complex ztimhr.c for Times the LAPACK routines ZGEHRD, ZUNGHR, and ZUNMHR prec doublecomplex # === stimlq.c for Times the LAPACK routines to perform the LQ factorization (SGELQF, SORGLQ, SORMLQ) prec single dtimlq.c for Times the LAPACK routines to perform the LQ factorization (DGELQF, DORGLQ, DORMLQ) prec double ctimlq.c for Times the LAPACK routines to perform the LQ factorization (CGELQF, CUNGLQ, CUNMLQ) prec complex ztimlq.c for Times the LAPACK routines to perform the LQ factorization (ZGELQF, ZUNGLQ, ZUNMLQ) prec doublecomplex # === stimpb.c for Times SPBTRF and SPBTRS prec single dtimpb.c for Times DPBTRF and DPBTRS prec double ctimpb.c for Times CPBTRF and CPBTRS prec complex ztimpb.c for Times ZPBTRF and ZPBTRS prec doublecomplex # === stimpo.c for Times SPOTRF, SPOTRS, and SPOTRI prec single dtimpo.c for Times DPOTRF, DPOTRS, and DPOTRI prec double ctimpo.c for Times CPOTRF, CPOTRS, and CPOTRI prec complex ztimpo.c for Times ZPOTRF, ZPOTRS, and ZPOTRI prec doublecomplex # === stimpp.c for Times SPPTRF, SPPTRS, and SPPTRI prec single dtimpp.c for Times DPPTRF, DPPTRS, and DPPTRI prec double ctimpp.c for Times CPPTRF, CPPTRS, and CPPTRI prec complex ztimpp.c for Times ZPPTRF, ZPPTRS, and ZPPTRI prec doublecomplex # === stimpt.c for Times SPTTRF, -TRS, -SV, and -SL. prec single dtimpt.c for Times DPTTRF, -TRS, -SV, and -SL. prec double ctimpt.c for Times CPTTRF, -TRS, -SV, and -SL. prec complex ztimpt.c for Times ZPTTRF, -TRS, -SV, and -SL. prec doublecomplex # === stimql.c for Times the LAPACK routines to perform the QL factorization (SGEQLF, SORGQL, SORMQL) prec single dtimql.c for Times the LAPACK routines to perform the QL factorization (DGEQLF, DORGQL, DORMQL) prec double ctimql.c for Times the LAPACK routines to perform the QL factorization (CGEQLF, CUNGQL, CUNMQL) prec complex ztimql.c for Times the LAPACK routines to perform the QL factorization (ZGEQLF, ZUNGQL, ZUNMQL) prec doublecomplex # === stimqp.c for Times the LAPACK routines to perform the QR factorization with column pivoting (SGEQPF) prec single dtimqp.c for Times the LAPACK routines to perform the QR factorization with column pivoting (DGEQPF) prec double ctimqp.c for Times the LAPACK routines to perform the QR factorization with column pivoting (CGEQPF) prec complex ztimqp.c for Times the LAPACK routines to perform the QR factorization with column pivoting (ZGEQPF) prec doublecomplex # === stimqr.c for Times the LAPACK routines to perform the QR factorization (SGEQRF, SORGQR, SORMQR) prec single dtimqr.c for Times the LAPACK routines to perform the QR factorization (DGEQRF, DORGQR, DORMQR) prec double ctimqr.c for Times the LAPACK routines to perform the QR factorization (CGEQRF, CUNGQR, CUNMQR) prec complex ztimqr.c for Times the LAPACK routines to perform the QR factorization (ZGEQRF, ZUNGQR, ZUNMQR) prec doublecomplex # === stimrq.c for Times the LAPACK routines to perform the RQ factorization (SGERQF, SORGRQ, SORMRQ) prec single dtimrq.c for Times the LAPACK routines to perform the RQ factorization (DGERQF, DORGRQ, DORMRQ) prec double ctimrq.c for Times the LAPACK routines to perform the RQ factorization (CGERQF, CUNGRQ, CUNMRQ) prec complex ztimrq.c for Times the LAPACK routines to perform the RQ factorization (ZGERQF, ZUNGRQ, ZUNMRQ) prec doublecomplex # === stimsp.c for Times SSPTRF, SSPTRS, and SSPTRI prec single dtimsp.c for Times DSPTRF, DSPTRS, and DSPTRI prec double ctimsp.c for Times CSPTRF, CSPTRS, and CSPTRI prec complex ztimsp.c for Times ZSPTRF, ZSPTRS, and ZSPTRI prec doublecomplex ctimhp.c for Times CHPTRF, CHPTRS, and CHPTRI prec complex ztimhp.c for Times ZHPTRF, ZHPTRS, and ZHPTRI prec doublecomplex # === stimsy.c for Times SSYTRF, SSYTRS, and SSYTRI prec single dtimsy.c for Times DSYTRF, DSYTRS, and DSYTRI prec double ctimsy.c for Times CSYTRF, CSYTRS, and CSYTRI prec complex ztimsy.c for Times ZSYTRF, ZSYTRS, and ZSYTRI prec doublecomplex ctimhe.c for Times CHETRF, CHETRS, and CHETRI prec complex ztimhe.c for Times ZHETRF, ZHETRS, and ZHETRI prec doublecomplex # === stimtb.c for Times STBTRS prec single dtimtb.c for Times DTBTRS prec double ctimtb.c for Times CTBTRS prec complex ztimtb.c for Times ZTBTRS prec doublecomplex # === stimtd.c for Times the LAPACK routines SSYTRD, SORGTR, and SORMTR, and the EISPACK routine TRED1 prec single dtimtd.c for Times the LAPACK routines DSYTRD, DORGTR, and DORMTR, and the EISPACK routine TRED1 prec double ctimtd.c for Times the LAPACK routines CHETRD, CUNGTR, and CUNMTR prec complex ztimtd.c for Times the LAPACK routines ZHETRD, ZUNGTR, and ZUNMTR prec doublecomplex # === stimtp.c for Times STPTRI and STPTRS prec single dtimtp.c for Times DTPTRI and DTPTRS prec double ctimtp.c for Times CTPTRI and CTPTRS prec complex ztimtp.c for Times ZTPTRI and ZTPTRS prec doublecomplex # === stimtr.c for Times STRTRI and STRTRS prec single dtimtr.c for Times DTRTRI and DTRTRS prec double ctimtr.c for Times CTRTRI and CTRTRS prec complex ztimtr.c for Times ZTRTRI and ZTRTRS prec doublecomplex ----------------------------------------------------------- for CLAPACK utility routines path: /netlib/clapack/util/ ----------------------------------------------------------- .depend f2c.h dsecnd.c dlamch.c icmax1.c ilaenv.c izmax1.c lsame.c lsamen.c second.c slamch.c xerbla.c ----------------------------------------------------------- for advertising material for commercial math path: /netlib/commercial/ ----------------------------------------------------------- harmonic for O-Matrix, A high-performance Visual Data Analysis environment by Harmonic Software Inc. http://world.std.com/~harmonic hiq for HiQ (interactive problem-solving environment for Macintosh) imsl for Visual Numerics (former IMSL and Precision Visuals) mlab for description and ordering information for MLAB keywords mathematics, statistics, modeling, differential equations, linear algebra nag for Numerical Algorithms Group nr for Numerical Recipes ve for Visual Engineering keywords visualization and presentation windward for Windward Technologies, Inc. (WTI) by TomAird@aol.com PWSmith@aol.com ----------------------------------------------------------- for the "parameter problem" associated with path: /netlib/conformal/ ----------------------------------------------------------- cap for conformal mapping of circular arc polygons by P. Bjorstad and E. Grosse ref SIAM J Scientific Computing 8,19-32 rel ok age experimental scpack for Schwarz-Christoffel conformal mapping, disk to polygon prec single by L. N. Trefethen ref SCPACK User's Guide, Internal Report 24, ICASE, NASA Langley, 1983. rel excellent age stable gams i2b4, p lang fortran scpdbl for Schwarz-Christoffel conformal mapping, disk to polygon prec double by L. N. Trefethen ref SCPACK User's Guide, Internal Report 24, ICASE, NASA Langley, 1983. rel excellent age stable gams i2b4, p lang fortran scdoc for users guide for conformal/scpack by L. N. Trefethen sclibdbl for requisite utility routines for conformal/scpack prec double by L. N. Trefethen testdbl for three tests for conformal/scpack prec double by L. N. Trefethen sclib for requisite utility routines for conformal/scpack prec single by L. N. Trefethen tests for three tests for conformal/scpack prec single by L. N. Trefethen kirch1 for free-streamline flows code for conformal/scpdbl by L. N. Trefethen gams i2b4, p, z lang fortran gearlike/ for conformal mapping from the unit disk to a gear-like domain consisting of concentric circular arcs and radial line segments. by Kent Pearce ref SIAM J Sci and Stat Comp. gams p lang fortran gearplot for plotting output of conformal/gearlike using DISSPLA by Kent Pearce confpack for The CONFPACK subroutine library size 412 kB alg Symm's integral equation by Gutknecht and Hough ref David M. Hough, August 1990, "User's Guide to CONFPACK, Version 1.0", IPS Research Report No. 90-11. ETH-Zentrum, Ch-8092 Zurich, Switzerland. # CONFPACK 1.0, 6 Apr 1991 by ftp from 129.132.17.1 in Zurich. see linpack, quadpack # send isamax sasum saxpy sdot sgeco sgefa sgedi sgesl sscal sswap from linpack. send qaws qawse qc25s qcheb qk15w qmaco qmomo qsort qwgts from quadpack. But netlib has slatec version of quadpack, this code uses book version! We'll fix this when we get a chance. Martin Gutknecht mhg@ips.ethz.ch or na.gutknecht@na-net.ornl.gov David Hough mtx005@cck.cov.ac.uk or na.dhough@na-net.ornl.gov gams i2b4, p lang fortran pargen for preprocessor program PARGEN for conformal/confpack confdrivers for 10 example driver programs for conformal/confpack readme ----------------------------------------------------------- for conformal mapping from the unit disk to a path: /netlib/conformal/gearlike/ ----------------------------------------------------------- gl.f gl.txt gldrv.f readme ----------------------------------------------------------- for continuation and limit points path: /netlib/contin/ ----------------------------------------------------------- pcon61.f title PITCON 6.1 for continuation and limit points by Werner Rheinboldt and John Burkardt, University of Pittsburgh. wcrhein@vms.cis.pitt.edu burkardt@psc.edu prec single age stable gams f2 dpcon61.f title PITCON 6.1 for continuation and limit points by Werner Rheinboldt and John Burkardt, University of Pittsburgh. wcrhein@vms.cis.pitt.edu burkardt@psc.edu prec double age stable gams f2 pcon61subs.f for LINPACK routines needed by contin/pcon61.f prec single pcon61subd.f for LINPACK routines needed by contin/dpcon61.f prec double pcprb1.f for sample problem for contin/pcon61.f pcprb2.f for sample problem for contin/pcon61.f pcprb3.f for sample problem for contin/pcon61.f pcprb4.f for sample problem for contin/pcon61.f pcprb5.f for sample problem for contin/pcon61.f pcprb6.f for sample problem for contin/pcon61.f pcprb7.f for sample problem for contin/pcon61.f pcprb8.f for sample problem for contin/pcon61.f abcon.f for predictor-corrector continuation alg variable order Adams-Bashforth by Bruce N. Lundberg and Aubrey B. Poore; lundberg@math.colostate.edu prec single age research ----------------------------------------------------------- for spline fitting routines for various kinds of path: /netlib/dierckx/ ----------------------------------------------------------- #======== Curve fitting routines ====== .depend curfit.f for general curve fitting gams k1a1a1, k5, l8g, l8h dependencies percur.f for curve fitting with periodic splines gams k1a1a1, k5, l8g, l8h parcur.f for smoothing of parametric curves gams k1a1a1, k5, l8g, l8h clocur.f for smoothing of closed curves gams k1a1a1, k5, l8g, l8h concur.f for smoothing with end point derivative constraints gams k1a1a1, k5, l8g, l8h cocosp.f for least-squares fitting with convexity constraints gams k1a2a concon.f for automatic smoothing with convexity constraints gams k5, k1a2a #======== Curve application routines ====== splev.f for evaluation of a spline function gams e3a1, k6a1 splder.f for derivative calculation of a spline function gams e3a2, k6a2 spalde.f for all derivatives of a spline function gams e3a2, k6a2 curev.f for evaluation of a spline curve gams e3a1, k6a1 cualde.f for all derivatives of a spline curve gams k6a2 insert.f for inserting a knot into a given spline gams e3a3, k6c splint.f for integration of a spline function gams e3a3, k6a3 fourco.f for fourier coefficients of a cubic spline gams e3d, k6d sproot.f for the zeros of a cubic spline gams e3d, f1b, k6d #======== Surface fitting routines ====== surfit.f for surface fitting to scattered data gams k1a1b, k5, l8g, l8h regrid.f for surface fitting to data on a rectangular grid gams k1a1b, k5, l8g, l8h polar.f for surface fitting using generalized polar coordinates gams k1a1b, k5, l8g, l8h pogrid.f for surface fitting to data on a polar grid gams k1a1b, k5, l8g, l8h sphere.f for surface fitting using spherical coordinates gams k1a1b, k5, l8g, l8h spgrid.f for surface fitting to data on a spherical grid gams k1a1b, k5, l8g, l8h parsur.f for parametric surface fitting to data on a grid gams k1a1b, k5, l8g, l8h #======== Surface application routines ====== bispev.f for evaluation of a bivariate spline function gams k6a1 parder.f for partial derivatives of a bivariate spline gams e3a2, k6a2 dblint.f for integration of a bivariate spline gams e3a3, k6a3 profil.f for cross sections of a bivariate spline gams e3d, k6d evapol.f for evaluation of a polar spline gams e3a1, k6a1 surev.f for evaluation of a parametric spline surface gams e3a1, k6a1 ex/ for test programs for each of the 29 main routines # This index file only describes the top-level routines. # The remaining FITPACK programs are lower level routines either called # directly # or indirectly by one or more of the user-level routines below. Their # names all # begin with the initials fp (fpader, fpadno,...) to avoid confusion # with other # possible user-supplied routines. fpader.f fpadno.f fpadpo.f fpback.f fpbacp.f fpbfout.f fpbisp.f fpbspl.f fpchec.f fpched.f fpchep.f fpclos.f fpcoco.f fpcons.f fpcosp.f fpcsin.f fpcurf.f fpcuro.f fpcyt1.f fpcyt2.f fpdeno.f fpdisc.f fpfrno.f fpgivs.f fpgrdi.f fpgrpa.f fpgrre.f fpgrsp.f fpinst.f fpintb.f fpknot.f fpopdi.f fpopsp.f fporde.f fppara.f fppasu.f fpperi.f fppocu.f fppogr.f fppola.f fprank.f fprati.f fpregr.f fprota.f fprppo.f fprpsp.f fpseno.f fpspgr.f fpsphe.f fpsuev.f fpsurf.f fpsysy.f fptrnp.f fptrpe.f readme ----------------------------------------------------------- for test programs for each of the 29 main routines path: /netlib/dierckx/ex/ ----------------------------------------------------------- dapasu dapogr dapola daregr daspgr dasphe dasurf mnbisp.f mncloc.f mncoco.f mnconc.f mncosp.f mncual.f mncuev.f mncurf.f mndbin.f mnevpo.f mnfour.f mninst.f mnpade.f mnparc.f mnpasu.f mnperc.f mnpogr.f mnpola.f mnprof.f mnregr.f mnspal.f mnspde.f mnspev.f mnspgr.f mnsphe.f mnspin.f mnspro.f mnsuev.f mnsurf.f ----------------------------------------------------------- for multiple tasks to communicate and schedule local path: /netlib/domino/ ----------------------------------------------------------- index2 readme for overview of domino conofacepc for domino conoface for an IBM-PC (lattice C) conofaces for domino conoface for a Sun workstation conofacevcc for domino conoface for a Z80 (Vandata vcc compiler) conofacevu for domino conoface for a Vax (Berkeley Unix) conofacevv for domino conoface for a Vax (VMS) doc for documentation on how to create conoface and proface as well as notes on linking node programs in Fortran source for system for multiple task/processor scheduling, communicating and handling ----------------------------------------------------------- # Description carried over from above..... path: /netlib/eispack/ ----------------------------------------------------------- .depend cdiv.f csroot.f dependencies double/ epslon.f error files makefile otqlrat.f pythag.f readme for overview of eispack 3090vf/ by Cline, Dubrulle, and Meyering for vectorizing on an IBM 3090-VF computer # These codes might be a useful starting point for vectorized versions on other computers as well. ex/ for This directory contains a complete set of testing routines for eispack. bakvec.f gams D4c4 for back transformation, sign-symmetric matrix balanc.f gams D4c1a for scaling, general matrix balbak.f gams D4c4 for back scaling, general matrix bandr.f gams D4c1b1 for reduction, symmetric band matrix bandv.f gams D4c3 for some eigenvectors, symmetric band matrix bisect.f gams D4a5,D4c2a for some eigenvalues, symmetric tridiagonal matrix bqr.f gams D4a6 for some eigenvalues, symmetric band matrix cbabk2.f gams D4c4 for back scaling, complex matrix cbal.f gams D4c1a for scaling, complex matrix cg.f gams D4a4 for find eigenvalues and eigenvectors, complex general matrix ch.f gams D4a3 for find eigenvalues and eigenvectors, complex Hermitian matrix cinvit.f gams D4c2b for some eigenvectors, complex Hessenberg matrix combak.f gams D4c4 for back transformation, complex matrix comhes.f gams D4c1b2 for reduction, complex matrix comlr.f gams D4c2b for all eigenvalues, complex Hessenberg matrix comlr2.f gams D4c2b for all eigenvalues and eigenvectors, complex Hessenberg matrix comqr.f gams D4c2b for all eigenvalues, complex Hessenberg matrix comqr2.f gams D4c2b for all eigenvalues and eigenvectors, complex Hessenberg matrix cortb.f gams D4c4 for back transformation, complex matrix corth.f gams D4c1b2 for reduction, complex matrix elmbak.f gams D4c4 for back transformation, real matrix elmhes.f gams D4c1b2 for reduction, real matrix eltran.f gams D4c4 for reduction, real matrix figi.f gams D4c1c for reduction, sign-symmetric matrix figi2.f gams D4c1c for reduction, sign-symmetric matrix hqr.f gams D4c2b for all eigenvalues, real Hessenberg matrix hqr2.f gams D4c2b for all eigenvalues and eigenvectors, real Hessenberg matrix htrib3.f gams D4c4 for back transformation, Hermitian packed matrix htribk.f gams D4c4 for back transformation, Hermitian matrix htrid3.f gams D4c1b1 for reduction, Hermitian packed matrix htridi.f gams D4c1b1 for reduction, Hermitian matrix imtql1.f gams D4a5,D4c2a for all eigenvalues, symmetric tridiagonal matrix imtql2.f gams D4a5,D4c2a for all eigenvalues and eigenvectors, symmetric tridiagonal matrix imtqlv.f gams D4a5,D4c2a for all eigenvalues, symmetric tridiagonal matrix invit.f gams D4c2b for some eigenvectors, real Hessenberg matrix minfit.f gams D6 for least squares, real matrix ortbak.f gams D4c4 for back transformation, real matrix orthes.f gams D4c1b2 for reduction, real matrix ortran.f gams D4c4 for reduction, real matrix qzhes.f gams D4c1b3 for reduction, generalized matrix qzit.f gams D4c1b3 for further reduction, generalized Hessenberg matrix qzval.f gams D4c2c for all eigenvalues, generalized Hessenberg matrix qzvec.f gams D4c3 for all eigenvectors, generalized Hessenberg matrix ratqr.f gams D4a5,D4c2a for some eigenvalues, symmetric tridiagonal matrix rebak.f gams D4c4 for back transformation, symmetric generalized matrix rebakb.f gams D4c4 for back transformation, symmetric generalized matrix reduc.f gams D4c1c for reduction, symmetric generalized matrix reduc2.f gams D4c1c for reduction, symmetric generalized matrix rg.f gams D4a2 for find eigenvalues and eigenvectors, general matrix rgg.f gams D4b2 for find eigenvalues and eigenvectors, generalized matrix rs.f gams D4a1 for find eigenvalues and eigenvectors, symmetric matrix rsb.f gams D4a6 for find eigenvalues and eigenvectors, band symmetric matrix rsg.f gams D4b1 for find eigenvalues and eigenvectors, generalized symmetric matrix rsgab.f gams D4b1 for find eigenvalues and eigenvectors, generalized symmetric matrix rsgba.f gams D4b1 for find eigenvalues and eigenvectors, generalized symmetric matrix rsm.f for find eigenvalues and eigenvectors, symmetric matrix rsp.f gams D4a1 for find eigenvalues and eigenvectors, packed symmetric matrix rst.f gams D4a5 for find eigenvalues and eigenvectors, tridiagonal symmetric matrix rt.f gams D4a5 for find eigenvalues and eigenvectors, sign-symmetric tridiagonal matrix single/ svd.f gams D6 for singular value decomposition, real matrix tape.file1 tinvit.f gams D4c3 for some eigenvectors, symmetric tridiagonal matrix to.eric tql1.f gams D4a5,D4c2a for all eigenvalues, symmetric tridiagonal matrix tql2.f gams D4a5,D4c2a for all eigenvalues and eigenvectors, symmetric tridiagonal matrix tqlrat.f gams D4a5,D4c2a for all eigenvalues, symmetric tridiagonal matrix trbak1.f gams D4c4 for back transformation, symmetric matrix trbak3.f gams D4c4 for back transformation, packed symmetric matrix tred1.f gams D4c1b1 for reduction, symmetric matrix tred2.f gams D4c1b1 for reduction, symmetric matrix tred3.f gams D4c1b1 for reduction, packed symmetric matrix tridib.f gams D4a5,D4c2a for some eigenvalues, symmetric tridiagonal matrix tsturm.f gams D4a5,D4c2a for some eigenvalues and eigenvectors, symmetric tridiagonal matrix ----------------------------------------------------------- by Cline, Dubrulle, and Meyering path: /netlib/eispack/3090vf/ ----------------------------------------------------------- # The files here comprise a version of EISPACK that has been tuned to # take advantage of the cache, the vector registers, and the vectorizing # compiler of the IBM 3090-VF. Some of these files were not modified at # all (from the original EISPACK versions), but are included here for # completeness. 3090vf paper/ for description of changes to eispack by Cline and Meyering single/ prec single by Cline and Meyering double/ prec double by Augustin Dubrulle # Thus to get the file double precision vectorized tql2 subroutine, say # send tql2 from eispack/3090vf/d. # To get the corresponding single precision, say # send tql2 from eispack/3090vf/s. # Because the code contains a few IBM-specific constructions not understood # by the compiler here, netlib can not provide its customary dependency # analysis. So you have to ask for each subroutine individually. For a # list of subroutines, see the index for (standard) eispack. # # Patches posted to the na-digest have been applied to the appropriate # files. For details, "send changes from eispack/3090vf/s". # # A. Cline and J. Meyering, "Converting EISPACK to run efficiently on # a vector processor", Tech. Memo., Pleasant Valley Software, # Austin TX, 1989. # # A.A. Dubrulle, "A version of EISPACK for the IBM 3090VF", TR G320-3510, # IBM Scientific Center, Palo Alto CA, 1988. ----------------------------------------------------------- prec double path: /netlib/eispack/3090vf/double/ ----------------------------------------------------------- # The files in this directory comprise a version of double-precision # EISPACK that has been tuned to take advantage of the cache, the vector # registers, and the vectorizing compiler of the ibm 3090-vf. # This version is the work of Augustin Dubrulle of IBM's Palo Alto # Scientific Center. # For more details, see the paper by Cline and Meyering in the # directory, ../paper. README bakvec.f balanc.f balbak.f bandr.f bandv.f bisect.f bqr.f cbabk2.f cbal.f cdiv.f cg.f ch.f cinvit.f combak.f comhes.f comlr.f comlr2.f comqr.f comqr2.f cortb.f corth.f csroot.f dsc16.f elmbak.f elmhes.f eltran.f epslon.f figi.f figi2.f hqr.f hqr2.f htrib3.f htribk.f htrid3.f htridi.f imtql1.f imtql2.f imtqlv.f invit.f kachel.f minfit.f ortbak.f orthes.f ortran.f pythag.f qzhes.f qzit.f qzval.f qzvec.f ratqr.f rebak.f rebakb.f reduc.f reduc2.f rg.f rgg.f rs.f rsb.f rsg.f rsgab.f rsgba.f rsm.f rsp.f rst.f rt.f svd.f tinvit.f tql1.f tql2.f tqlrat.f trbak1.f trbak3.f tred1.f tred2.f tred3.f tridib.f tsturm.f ----------------------------------------------------------- for description of changes to eispack path: /netlib/eispack/3090vf/paper/ ----------------------------------------------------------- GNUmakefile Makefile-tex-template ibm.tex for description of changes to eispack by Cline and Meyering size 41 kilobytes ibm.ps for PostScript formof ibm.tex size 310 kilobytes ----------------------------------------------------------- prec single path: /netlib/eispack/3090vf/single/ ----------------------------------------------------------- # The files in this directory comprise a version of single-precision # EISPACK that has been tuned to take advantage of the cache, the vector # registers, and the vectorizing compiler of the ibm 3090-vf. Some of # these files were not modified at all (from the original EISPACK versions), # but are included here for completeness. # The patches posted to the netlib mailing list have been # applied to the appropriate files. See the file NETLIB_PATCHES. # For more details, see the paper by Cline and Meyering in the # directory, ../paper. NETLIB-PATCHES README bakvec.f balanc.f balbak.f bandr.f bandv.f bisect.f bqr.f cbabk2.f cbal.f cdiv.f cg.f ch.f cinvit.f combak.f comhes.f comlr.f comlr2.f comqr.f comqr2.f cortb.f corth.f csroot.f elmbak.f elmhes.f eltran.f epslon.f figi.f figi2.f hqr.f hqr2.f htrib3.f htribk.f htrid3.f htridi.f imtql1.f imtql2.f imtqlv.f invit.f minfit.f ortbak.f orthes.f ortran.f pythag.f qzhes.f qzit.f qzval.f qzvec.f ratqr.f rebak.f rebakb.f reduc.f reduc2.f rg.f rgg.f rs.f rsb.f rsg.f rsgab.f rsgba.f rsm.f rsp.f rst.f rt.f svd.f tinvit.f tql1.f tql2.f tqlrat.f trbak1.f trbak3.f tred1.f tred2.f tred3.f tridib.f tsturm.f ----------------------------------------------------------- path: /netlib/eispack/double/ ----------------------------------------------------------- comments source ----------------------------------------------------------- for This directory contains a complete set of path: /netlib/eispack/ex/ ----------------------------------------------------------- # Index for eispack/x ch.f file35 file36 file37 file38 file39 file41 file42 file43 file44 file45 file46 file47 file48 file49 file50 file51 file52 foo foo2 newst.f rs.f rsb.f rsg.bak1 rsgab.f rsgba.f rsp.f rteispak.f cgeispak.f cgtest.f rsgbapk.f cg.d ch.d cg.l rsgbatest.f rsgeispk.f rsgtest.f rsp.d rspeispk.f rsp.l rsptest.f rst.l rst.f rsteispk.f rst.d rsttest.f rstest.f rt.l rt.d run2 rttest.f single.test single/ sven.report stript.f tape.ascii tampr tape.ebcdic unixtests treds.f tape.oldibm ch.l cheispak.f comments.f cover chtest.f cover2 debug diffs load2 maketape double.test oldstript.f rbleispk.f rbl.d rbl.l pfort rblres.f rg.d rbltest.f rg.f rgeispak.f rg.l rgg.d rgg.l rggeispk.f rggtest.f rl.d rl.l rleispak.f rlres.f rltest.f rs.d rs.l rsb.l rsb.d rsbeispk.f rsbtest.f rseispak.f rsg.d rsg.f rsgab.d rsgab.l rsg.l rsgabpk.f rsgabtest.f rsgabr.f rsgba.d rsgba.l file34 rgtest.f file33 file40 ----------------------------------------------------------- path: /netlib/eispack/ex/single/ ----------------------------------------------------------- FILE33 FILE34 FILE35 FILE36 FILE37 FILE38 FILE39 FILE40 FILE41 FILE42 FILE43 FILE44 FILE45 FILE46 FILE47 FILE48 FILE49 FILE50 FILE51 FILE52 TAMPR cg.d cg.l cgtest.f ch.d ch.l chtest.f foo load2 rbl.d rbl.l rbltest.f rg.d rg.l rgg.d rgg.l rggtest.f rgtest.f rl.d rl.l rltest.f rs.d rs.l rsb.d rsb.l rsbtest.f rsg.d rsg.l rsgab.d rsgab.l rsgabtest.f rsgba.d rsgba.l rsgbatest.f rsgtest.f rsp.d rsp.l rsptest.f rst.d rst.l rstest.f rsttest.f rt.d rt.l rttest.f run2 ----------------------------------------------------------- path: /netlib/eispack/single/ ----------------------------------------------------------- TAMPR comments ----------------------------------------------------------- for testing elementary function programs provided path: /netlib/elefunt/ ----------------------------------------------------------- alog.f for test of alog and alog10 prec single gams c4a asin.f for test of asin and acos prec single gams c4a atan.f for test of atan prec single gams c4a dasin.f for test of dasin and dacos prec double gams c4a datan.f for test of datan prec double gams c4a dexp.f for test of exponential prec double gams c4a dlog.f for test of dlog and dlog10 prec double gams c4a dmachar.f for environmental parameters prec double dpower.f for test of dpower prec double gams c2 dsin.f for test of dsin and dcos prec double gams c4a dsinh.f for test of dsinh and dcosh prec double gams c4c dsqrt.f for test of dsqrt prec double gams c2 dtan.f for test of dtan and dcotan prec double gams c4a dtanh.f for test of dtanh prec double gams c4c exp.f for test of exponential prec single gams c4a machar.f for floating point environmental parameters prec single/double machar.c for floating point environmental parameters prec single/double machar-basic lang Basic for floating point environmental parameters prec single/double power.f for test of power prec single gams c2 sin.f for test of sin and cos prec single gams c4a sinh.f for test of sinh and cosh prec single gams c4c sqrt.f for test of sqrt prec single gams c2 tan.f for test of tan and cotan prec single gams c4a tanh.f for test of tanh prec single gams c4c makefile ----------------------------------------------------------- for integrated problem solving environments path: /netlib/env/ ----------------------------------------------------------- yorick/ for developing simulations codes and pre- and post-processors by David H. Munro lang Standard C # *** This is a pre-release of yorick-1.0, which will come out soon. *** Yorick is an interpreted language like Basic or Lisp, but far faster. * A C-like language, but without declarative statements. Operations between arrays produce array results, which is one reason for Yorick's high speed. Scientific computing and numerical analysis are the goals of most Yorick programs. * An X window system interactive graphics package. Concentrates on x-y plots and filling and contouring quadrilateral meshes. Also handles cell arrays. Hardcopy to binary CGM or PostScript files. A separate CGM browser is included. * Yorick's binary file package can read or write floating point formats foreign to the machine where Yorick is running. Thus, you can share binary files freely on heterogeneous networks. * A library of functions written in the Yorick language. These include Bessel, gamma, and related functions, multiple key sorting, spline, rational function, and least squares fitting, and routines to read and write netCDF files. * Provisions for embedding compiled subroutines and functions within a Yorick interpreter. A compiled package which solves matrices and performs FFTs is supplied. size 1.4 MB # (NOT AVAILABLE BY EMAIL) yorick.readme ----------------------------------------------------------- for developing simulations codes and pre- and path: /netlib/env/yorick/ ----------------------------------------------------------- yorick-1.1/ ----------------------------------------------------------- path: /netlib/env/yorick/yorick-1.1/ ----------------------------------------------------------- ANNOUNCE Browser/ Drat/ Gist/ IAFA-PACKAGE INSTALL LEGAL Makefile.in Math/ MathC/ NEWS README Yorick/ configure configure.in gist.1 install-sh yorick-1.1.lsm yorick.1 ----------------------------------------------------------- path: /netlib/env/yorick/yorick-1.1/Browser/ ----------------------------------------------------------- Makefile.in README cgmin.c cgmin.h eps.c eps.h main.c ----------------------------------------------------------- path: /netlib/env/yorick/yorick-1.1/Drat/ ----------------------------------------------------------- Makefile README bound.c bound.h check.i drat.c drat.h drat.i drat.tex dratt.i texinfo.tex track.c track.h trans.c trans.h ydrat.c ----------------------------------------------------------- path: /netlib/env/yorick/yorick-1.1/Gist/ ----------------------------------------------------------- EXTERNS GUIDE Makefile.in README README.B axes.gs bench.c boxed.gs boxed2.gs cgm.c cgm.h clip.c clip.h dispas.c dispas.h dispat.c dispat.h dispax.c dispax.h draw.c draw.h draw0.c earth.gp engine.c engine.h events.c events.h fort.c gist.c gist.h gray.gp gread.c gtext.c gtext.h heat.gp hlevel.c hlevel.h host.c l_nobox.gs nobox.gs osmem.c ospoll.c osterm.c ostime.c osys.c osys.h ps.c ps.h ps.ps pscom.ps rainbow.gp stern.gp tick.c vg.gs vgbox.gs work.gs work2.gs xbasic.c xbasic.h xfancy.c xfancy.h xfont.c xfont.h xicky.c xicky.h yarg.gp ----------------------------------------------------------- path: /netlib/env/yorick/yorick-1.1/Math/ ----------------------------------------------------------- Makefile README cfft2.f cfftb.f cfftf.f cffti.f check.i dgblas.f dgecon.f dgesv.f dgtsv.f dgyor.f fft.i matrix.i roll2.f testm.i ----------------------------------------------------------- path: /netlib/env/yorick/yorick-1.1/MathC/ ----------------------------------------------------------- Makefile README cfft2.c cfftb.c cfftf.c cffti.c check.i dbdsqr.c dg.h dgblas.c dgecon.c dgels.c dgelss.c dgesv.c dgesv2.c dgesvd.c dgtsv.c dgyor.c dlamc3.c dlasr.c f2c.el fft.i matrix.i roll2.c testm.i ----------------------------------------------------------- path: /netlib/env/yorick/yorick-1.1/Yorick/ ----------------------------------------------------------- Makefile.in Maketmpl README array.c ascio.c bcast.c bcast.h binio.c binio.h binit.c binobj.c binpdb.c binstd.c cache.c check.i clog.c codger.c convrt.c custom.i debug.c defmem.c defmem.h defstr.c defstr.h doc/ fmcalc.c fnctn.c fortrn.c graph.c graph.i graph0.c hash.c hash.h ieee_sun.c include/ main.c nonc.c ops.c ops0.c ops1.c ops2.c ops3.c opsv.c parse.c parse.h paths.i range.c std.i std0.c std1.c std2.c stdx.i sysdep.c sysdep.h task.c yasync.h ydata.c ydata.h yinput.c yio.c yio.h yorick.c yorick.el yorick.y yrdwr.c ----------------------------------------------------------- path: /netlib/env/yorick/yorick-1.1/Yorick/doc/ ----------------------------------------------------------- FILE_FORMATS NOTES README dir drat.doc graph.doc math.doc refs.ps refs.tex std.doc texinfo.tex yorick.nfo yorick.nfo-1 yorick.nfo-2 yorick.nfo-3 yorick.ps yorick.tex ----------------------------------------------------------- path: /netlib/env/yorick/yorick-1.1/Yorick/include/ ----------------------------------------------------------- README bessel.i bowtie.i button.i collec.i copyb.i custom.i demo1.i demo2.i demo3.i demo4.i ellipse.i fitlsq.i fitrat.i gamma.i legal.i mkdoc.i movie.i msort.i multi.i netcdf.i pixels.i plwf.i prefix.i prmtyp.i rays.i readn.i rezone.i rkutta.i romberg.i series.i show.i spline.i test1.i test2.i test3.i testb.i testg.i testlp.i testp.i zroots.i ----------------------------------------------------------- for converting Fortran to C path: /netlib/f2c/ ----------------------------------------------------------- disclaimer f2c.1 lang man page f2c.1t lang troff -man source for man page f2c.h f2c.ps lang Postscript libf77/ lang C (bundle of source) libi77/ lang C (bundle of source) msdos/ for MS-DOS f2c binaries (ftp only) permission src/ for f2c source NOTE: "all from f2c/src" is the complete source for f2c. Other files in src are component modules, so you can request just the modules that have changed since last you got f2c source (look at the timestamps at the end of "readme from f2c"). readme ----------------------------------------------------------- lang C (bundle of source) path: /netlib/f2c/libf77/ ----------------------------------------------------------- libF77/ ----------------------------------------------------------- path: /netlib/f2c/libf77/libF77/ ----------------------------------------------------------- F77_aloc.c Notice README Version.c abort_.c c_abs.c c_cos.c c_div.c c_exp.c c_log.c c_sin.c c_sqrt.c cabs.c d_abs.c d_acos.c d_asin.c d_atan.c d_atn2.c d_cnjg.c d_cos.c d_cosh.c d_dim.c d_exp.c d_imag.c d_int.c d_lg10.c d_log.c d_mod.c d_nint.c d_prod.c d_sign.c d_sin.c d_sinh.c d_sqrt.c d_tan.c d_tanh.c derf_.c derfc_.c ef1asc_.c ef1cmc_.c erf_.c erfc_.c exit.c f2ch.add getarg_.c getenv_.c h_abs.c h_dim.c h_dnnt.c h_indx.c h_len.c h_mod.c h_nint.c h_sign.c hl_ge.c hl_gt.c hl_le.c hl_lt.c i_abs.c i_dim.c i_dnnt.c i_indx.c i_len.c i_mod.c i_nint.c i_sign.c iargc_.c l_ge.c l_gt.c l_le.c l_lt.c libF77.xsum main.c makefile pow_ci.c pow_dd.c pow_di.c pow_hh.c pow_ii.c pow_qq.c pow_ri.c pow_zi.c pow_zz.c r_abs.c r_acos.c r_asin.c r_atan.c r_atn2.c r_cnjg.c r_cos.c r_cosh.c r_dim.c r_exp.c r_imag.c r_int.c r_lg10.c r_log.c r_mod.c r_nint.c r_sign.c r_sin.c r_sinh.c r_sqrt.c r_tan.c r_tanh.c s_cat.c s_cmp.c s_copy.c s_paus.c s_rnge.c s_stop.c sig_die.c signal_.c system_.c z_abs.c z_cos.c z_div.c z_exp.c z_log.c z_sin.c z_sqrt.c ----------------------------------------------------------- lang C (bundle of source) path: /netlib/f2c/libi77/ ----------------------------------------------------------- libI77/ ----------------------------------------------------------- path: /netlib/f2c/libi77/libI77/ ----------------------------------------------------------- Notice README Version.c backspace.c close.c dfe.c dolio.c due.c endfile.c err.c f2ch.add fio.h fmt.c fmt.h fmtlib.c fp.h iio.c ilnw.c inquire.c libI77.xsum lio.h lread.c lwrite.c makefile open.c rawio.h rdfmt.c rewind.c rsfe.c rsli.c rsne.c sfe.c sue.c typesize.c uio.c util.c wref.c wrtfmt.c wsfe.c wsle.c wsne.c xwsne.c ----------------------------------------------------------- for MS-DOS f2c binaries (ftp only) path: /netlib/f2c/msdos/ ----------------------------------------------------------- README f2c.exe for conventional-memory MSDOS version of f2c (compiled by Borland C++ 4.02) f2cx.exe for extended-memory MSDOS version of f2c (compiled by Symantec C/C++) ccb.bat for compilation of f2c.exe (for people curious about how it was done) ccs.bat for compilation of f2cx.exe (for people curious about how it was done) ccm.bat etime.exe ----------------------------------------------------------- for f2c source NOTE: "all from f2c/src" is the path: /netlib/f2c/src/ ----------------------------------------------------------- # ====== index for f2c/src ====== # NOTE: "all from f2c/src" is the complete f2c source # (sans libraries). # The remaining files in this directory are the component modules # of "all from f2c/src", so you can request just the modules that # have changed since last you updated your f2c source. You can # tell what has changed by looking at the timestamps at the end # of "readme from f2c". .depend cds.c data.c defines.h defs.h dependencies equiv.c error.c exec.c expr.c f2c.1 f2c.1t f2c.h format.c format.h formatdata.c ftypes.h gram.c gram.dcl gram.exec gram.expr gram.head gram.io init.c intr.c io.c iob.h lex.c machdefs.h main.c makefile malloc.c mem.c memset.c misc.c names.c names.h niceprintf.c niceprintf.h notice output.c output.h p1defs.h p1output.c parse.h parse_args.c pccdefs.h pread.c proc.c put.c putpcc.c sysdep.c sysdep.h tokens usignal.h vax.c version.c xsum.c xsum0.out Notice README readme ----------------------------------------------------------- for C math library for machines that support IEEE path: /netlib/fdlibm/ ----------------------------------------------------------- .depend dependencies fdlibm.h e_acos.c e_acosh.c e_asin.c e_atan2.c e_atanh.c e_cosh.c e_exp.c e_fmod.c e_gamma.c e_gamma_r.c e_hypot.c e_j0.c e_j1.c e_jn.c e_lgamma.c e_lgamma_r.c e_log.c e_log10.c e_pow.c e_rem_pio2.c e_remainder.c e_scalb.c e_sinh.c e_sqrt.c k_cos.c k_rem_pio2.c k_sin.c k_standard.c k_tan.c makefile s_asinh.c s_atan.c s_cbrt.c s_ceil.c s_copysign.c s_cos.c s_erf.c s_expm1.c s_fabs.c s_finite.c s_floor.c s_frexp.c s_ilogb.c s_isnan.c s_ldexp.c s_lib_version.c s_log1p.c s_logb.c s_matherr.c s_modf.c s_nextafter.c s_rint.c s_scalbn.c s_signgam.c s_significand.c s_sin.c s_tan.c s_tanh.c w_acos.c w_acosh.c w_asin.c w_atan2.c w_atanh.c w_cosh.c w_exp.c w_fmod.c w_gamma.c w_gamma_r.c w_hypot.c w_j0.c w_j1.c w_jn.c w_lgamma.c w_lgamma_r.c w_log.c w_log10.c w_pow.c w_remainder.c w_scalb.c w_sinh.c w_sqrt.c readme ----------------------------------------------------------- for Fast Fourier Transform of periodic and other path: /netlib/fftpack/ ----------------------------------------------------------- # see also the double precision version in /netlib/bihar .depend Makefile dependencies doc for user guide for fftpack cfftb.f gams J1a2 for FFT, backward transform (synthesis) of a complex Fourier coefficient array cfftf.f gams J1a2 for FFT, forward transform of a complex periodic sequence cosqf.f gams J1a3 for FFT, forward cosine transform with odd wave numbers cost.f gams J1a3 for FFT, discrete cosine transform of a real even sequence ezfftb.f gams J1a1 for FFT, backward transform (synthesis) of a real Fourier coefficient array, simplified and slower version of (fftpack/rfftb) ezfftf.f gams J1a1 for FFT, forward transform of a real periodic sequence, simplified and slower version of (fftpack/rfftf) rfftb.f gams J1a1 for FFT, backward transform (synthesis) of a real Fourier coefficient array rfftf.f gams J1a1 for FFT, forward transform of a real periodic sequence sinqb.f gams J1a3 for FFT, backward sine transform (synthesis) with odd wave numbers sinqf.f gams J1a3 for FFT, forward sine transform with odd wave numbers sint.f gams J1a3 for FFT, discrete sine transform of a real odd sequence cffti.f gams -0- for initialization routine for (fftpack/cfftf) and (fftpack/cfftb) cosqb.f gams J1a3 for FFT, backward cosine transform (synthesis) with odd wave numbers cosqi.f gams -0- for initialization routine for (fftpack/cosqf) and (fftpack/cosqb) ezffti.f for initialization routine for (fftpack/ezfftf) and (fftpack/ezfftb) costi.f gams -0- for initialization routine for (fftpack/cost) rffti.f gams J1a1 for initialization routine for (fftpack/rfftf) and (ftpack/rfftb) sinqi.f gams -0- for initialization routtine for (fftpack/sinqf) and (fftpack/sinqb) sinti.f gams -0- for initialization routine for (fftpack/sint) cfftb1.f cfftf1.f cffti1.f cosqb1.f cosqf1.f ezfft1.f passb.f passb2.f passb3.f passb4.f passb5.f passf.f passf2.f passf3.f passf4.f passf5.f radb2.f radb3.f radb4.f radb5.f radbg.f radf2.f radf3.f radf4.f radf5.f radfg.f rfftb1.f rfftf1.f rffti1.f sint1.f test.f ----------------------------------------------------------- for finite differences for elliptic boundary value path: /netlib/fishpack/ ----------------------------------------------------------- .depend Makefile dependencies disclaimer hwscrt.f for solves the standard Helmholtz 5-point approximation in Cartesian coordinates using a centered finite difference grid gams i2b1a1a hwsplr.f for solves a Helmholtz 5-point approximation in polar coordinates using a centered finite difference grid gams i2b1a1a hwscyl.f for solves a modified Helmholtz 5-point approximation in cylindrical coordinates using a centered finite difference grid gams i2b1a1a hwsssp.f for solves a Helmholtz 5-point approximation in spherical coordinates and on the surface of the unit sphere using a centered finite difference grid gams i2b1a1a hwscsp.f for solves modified Helmholtz 5-point approximation in spherical coordinate assuming axis symmetry and using a centered finite difference grid gams i2b1a1a hstcrt.f for solves the standard Helmholtz 5-point approximation in Cartesian coordinates using a staggered finite difference grid gams i2b1a1a hstplr.f for solves a Helmholtz 5-point approximation in polar coordinates using a staggered finite difference grid gams i2b1a1a hstcyl.f for solves a modified Helmholtz 5-point approximation in cylindrical coordinates using a staggered finite difference grid gams i2b1a1a hstssp.f for solves a Helmholtz 5-point approximation in spherical coordinates and on the surface of the unit sphere using a staggered finite difference grid gams i2b1a1a hstcsp.f for solves a modified Helmholtz 5-point approximation in spherical coordinates assuming axis symmetry gams i2b1a1a hw3crt.f for solves the standard Helmholtz 7-point approximation in Cartesian coordinates using a centered finite difference grid gams i2b1a1a sepx4.f for discretizes and solves 2nd and optionally 4th order approximations to separable elliptic PDEs with constant coefficients in one direction gams i2b1a1a, i2b1a2 sepeli.f for discretizes and solves 2nd and optionally 4th order approximations on a uniform grid to a separable elliptic PDE on a rectangle gams i2b1a1a, i2b1a2 genbun.f for solves the linear system of equations resulting from an approximation to 2-dimensional elliptic PDEs with constant coefficients in one direction gams i2b4b blktri.f for solves block tridiagonal linear systems arising from approximations to separable 2-dimensional elliptic PDEs gams i2b4b poistg.f for solves a block tridiagonal linear system arising from staggered grid approximations to 2-dimensional elliptic PDEs with constant coefficients gams d2a4, i2b4b pois3d.f for solves a block tridiagonal linear system of equations arising from approximations to 3-dimensional elliptic PDEs in a box gams d2a4, i2b4b cmgnbn.f for solves a complex block tridiagonal linear system arising from approximations to separable complex 2-dimensional elliptic PDEs gams i2b4b cblktr.f for solves a complex block tridiagonal linear system arising from approximations to separable complex 2-dimensional elliptic PDEs gams i2b4b ex/ bcrh.f blktr1.f bsrh.f cblkt1.f ccmpb.f chkpr4.f chkprm.f chksn4.f chksng.f cmpcsg.f cmpmrg.f cmposd.f cmposn.f cmposp.f cmptr3.f cmptrx.f cofx.f cofx4.f cofy.f compb.f cosgen.f cpadd.f cproc.f cprocp.f cprod.f cprodp.f defe4.f defer.f dx.f dx4.f dy.f dy4.f epmach.f hstcs1.f hwscs1.f hwsss1.f indxa.f indxb.f indxc.f inxca.f inxcb.f inxcc.f merge.f minso4.f minsol.f ortho4.f orthog.f pgsf.f pimach.f poisd2.f poisn2.f poisp2.f pos3d1.f postg2.f ppadd.f ppgsf.f pppsf.f ppsgf.f ppspf.f proc.f procp.f prod.f prodp.f psgf.f speli4.f spelip.f store.f tevlc.f tevls.f tri3.f trid.f tris4.f trisp.f trix.f ----------------------------------------------------------- path: /netlib/fishpack/ex/ ----------------------------------------------------------- tstblktri.f tstcblktr.f tstcmgnbn.f tstgenbun.f tsthstcrt.f tsthstcsp.f tsthstcyl.f tsthstplr.f tsthstssp.f tsthw3crt.f tsthwscrt.f tsthwscsp.f tsthwscyl.f tsthwsplr.f tsthwsssp.f tstpois3d.f tstpoistg.f tstsepeli.f tstsepx4.f ----------------------------------------------------------- for splines under tension. (an early version) path: /netlib/fitpack/ ----------------------------------------------------------- all for spline under tension # Interested parties can obtain the entire package on disk or tape from Pleasant Valley Software, 8603 Altus Cove, Austin TX (USA), 78759 at a cost of $495 US. A 340 page manual is available for $30 US per copy. The package includes examples and machine readable documentation. ----------------------------------------------------------- ref Computer Methods for Mathematical Computations path: /netlib/fmm/ ----------------------------------------------------------- .depend dependencies error f.f fehl.f fmm.lib fun.f makefile orbit.f readme for overview of fmm decomp.f for decomposes a matrix by Gaussian elimination and estimates the condition of the matrix prec double rkfs.f seval.f solve.f for solution of linear system, A*x = b, do not use if (fmm/decomp) has detected a singularity prec double quanc8.f for estimate the integral of f(x) in a finite interval, user provided tolerance using an automatic adaptive routine based on the 8-panel Newton-Cotes rule prec double rkf45.f for Fehlberg fourth-fifth order Runge-Kutta method prec double spline.f for the coefficients for a cubic interpolating spline are computed prec double svd.f for determines the singular value decomposition, SVD, of a real rectangular matrix, using Householder bidiagonalization and a variant of the QR algorithm prec double fmin.f for an approximation to the point where a user function attains a minimum on an interval is determined prec double urand.f for is a uniform random number generator based on theory and suggestions given in D.E. Knuth (1969), Vol 2 prec double xxx2 xxx3 xxx4 zeroin.f for find a zero of a user function in an interval prec double ----------------------------------------------------------- for special functions path: /netlib/fn/ ----------------------------------------------------------- .depend Makefile acos.f gams C4a for arc cosine acosh.f gams C4c for arc hyperbolic cosine ai.f gams C10d for Airy function aid.f gams C10d for derivative of Airy function aide.f gams C10d for derivative of expontential scaled Airy function aie.f gams C10d for exponential scaled Airy function aint.f gams C1 for truncate real to an integral value albeta.f gams C7b for log beta function algams.f gams C7a for log gamma function with sign ali.f gams C5 for logarithmic integral alngam.f gams C7a for log absolute gamma function alnrel.f gams C4b for relative error logarithm alog.f gams C4b for natural logarithm alog10.f gams C4b for common logarithm asin.f gams C4a for arc sine asinh.f gams C4c for arc hyperbolic sine atan.f gams C4a for arc tangent atan2.f gams C4a for quadrant correct arc tangent atanh.f gams C4c for arc hyperbolic tangent besi0.f gams C10b1 for modified Bessel function of first kind, order zero besi0e.f gams C10b1 for exponential scaled modified Bessel function, first kind, order zero besi1.f gams C10b1 for modified Bessel function of first kind, order one besi1e.f gams C10b1 for exponential scaled modified Bessel function of first kind, order one besj0.f gams C10a1 for Bessel function of first kind, order zero besj1.f gams C10a1 for Bessel function of first kind, order one besk0.f gams C10b1 for modified Bessel function of third kind, order zero besk0e.f gams C10b1 for exponential scaled modified Bessel function, third kind, order zero besk1.f gams C10b1 for modified Bessel function of third kind, order one besk1e.f gams C10b1 for exponential scaled modified Bessel function, third kind, order one beskes.f gams C10b3 for sequence of exponential scaled modified Bessel function, third kind besks.f gams C10b3 for sequence of n modified Bessel function of third kind besy0.f gams C10a1 for Bessel function of second kind, order zero besy1.f gams C10a1 for Bessel function of second kind, order one beta.f gams C7b for beta function betai.f gams C7f for incomplete beta function bi.f gams C10d for Airy function of second kind, bAiry function bid.f gams C10d for derivative of Airy function of second kind bide.f gams C10d for derivative of exponential scaled Airy function of second kind bie.f gams C10d for exponential scaled Airy function of second kind c8lgmc.f for complex log gamma correction term c9lgmc.f for complex log gamma correction term c9ln2r.f for complex relative error logarithm from second order cabs.f gams C19 for absolute value of complex number cacos.f gams C4a for complex arc cosine cacosh.f gams C4c for complex arc hyperbolic cosine carg.f gams A4a for argument (angle) of complex number casin.f gams C4a for complex arc sine casinh.f gams C4c for complex arc hyperbolic sine catan.f gams C4a for complex arc tangent catan2.f gams C4a for complex quadrant correct arc tangent catanh.f gams C4c for complex arc hyperbolic tangent cbeta.f gams C7b for complex beta function cbrt.f gams C2 for cube root ccbrt.f gams C2 for complex cube root ccos.f gams C4a for complex cosine ccosh.f gams C4c for complex hyperbolic cosine ccot.f gams C4a for complex cotangent cexp.f gams C4b for complex exponential function cexprl.f gams C4b for complex relative error exp from first order cgamma.f gams C7a for complex gamma function cgamr.f gams C7a for complex reciprocal gamma function chi.f gams C6 for hyperbolic cosine integral chu.f gams C11 for confluent hypergeometric function, logarithmic solution ci.f gams C6 for cosine integral cin.f gams C6 for cosine integral inverse cinh.f gams C6 for hyperbolic cosine integral inverse clbeta.f gams C7b for complex log beta function clngam.f gams C7a for complex log gamma function clnrel.f gams C4b for complex relative error logarithm clog.f gams C4b for complex natural logarithm clog10.f gams C4b for complex common logarithm comp1.f for compare single and double precision functions comp2.f for compare single and double precision functions comp3.f for compare single and double precision functions cos.f gams C4a for cosine cosdg.f gams C4a for cosine, degree cosh.f gams C4c for hyperbolic cosine cot.f gams C4a for cotangent cpsi.f gams C7c for complex digamma function csevl.f gams C3a2 for Chebyshev series csin.f gams C4a for complex sine csinh.f gams C4c for complex hyperbolic sine csqrt.f gams C2 for complex square root ctan.f gams C4a for complex tangent ctanh.f gams C4c for complex hyperbolic tangent d9atn1.f for arc tangent from first order prec double d9gaml.f for gamma under and overflow limits prec double d9lgmc.f for log gamma correction term prec double d9ln2r.f for relative error logarithm from second order prec double d9pak.f for pack number prec double d9upak.f for subroutine to unpack number prec double dacos.f gams C4a for arc cosine prec double dacosh.f gams C4c for arc hyperbolic cosine prec double dai.f gams C10d for Airy function prec double daid.f gams C10d for derivative of Airy function daide.f gams C10d for derivative of exp scaled Airy function daie.f gams C10d for exp scaled Airy function prec double dasin.f gams C4a for arc sine prec double dasinh.f gams C4c for arc hyperbolic sine prec double datan.f gams C4a for arc tangent prec double datan2.f gams C4a for quadrant correct arc tangent prec double datanh.f gams C4c for arc hyperbolic tangent prec double daws.f gams C8c for Dawson function dbesi0.f gams C10b1 for modified Bessel function of first kind, order zero prec double dbesi1.f gams C10b1 for modified Bessel function of first kind, order one prec double dbesj0.f gams C10a1 for Bessel function of first kind, order zero prec double dbesj1.f gams C10a1 for Bessel function of first kind, order one prec double dbesk0.f gams C10b1 for modified Bessel function of third kind, order zero prec double dbesk1.f gams C10b1 for modified Bessel function of third kind, order one prec double dbesks.f gams C10b3 for sequence of n modified Bessel function, third kind prec double dbesy0.f gams C10a1 for Bessel function of second kind, order zero prec double dbesy1.f gams C10a1 for Bessel function of second kind, order one prec double dbeta.f gams C7b for beta function prec double dbetai.f gams C7f for incomplete beta function prec double dbi.f gams C10d for Airy function of second kind, bAiry function prec double dbid.f gams C10d for derivative of Airy function of second kind dbide.f gams C10d for derivative of exp scaled Airy function of second kind dbie.f gams C10d for exp scaled Airy function of second kind prec double dbsi0e.f gams C10b1 for exp scaled modified Bessel, first kind, order zero prec double dbsi1e.f gams C10b1 for exp scaled modified Bessel, first kind, order one prec double dbsk0e.f gams C10b1 for exp scaled modified Bessel, third kind, order zero prec double dbsk1e.f gams C10b1 for exp scaled modified Bessel, third kind, order one prec double dbskes.f gams C10b3 for sequence n exp scaled modified Bessel, third kind prec double dcbrt.f gams C2 for cube root prec double dchi.f gams C6 for hyperbolic cosine integral dchu.f gams C11 for confluent hypergeometric function, log solution prec double dci.f gams C6 for cosine integral prec double dcin.f gams C6 for cosine integral inverse prec double dcinh.f gams C6 for hyperbolic cosine integral inverse prec double dcos.f gams C4a for cosine prec double dcosdg.f gams C4a for cosine, degree prec double dcosh.f gams C4c for hyperbolic cosine prec double dcot.f gams C4a for cotangent prec double dcsevl.f gams C3a2 for Chebyshev series prec double ddaws.f gams C8c for Dawson function prec double de1.f gams C5 for exponential integral prec double dei.f gams C5 for exponential integral prec double dependencies derf.f gams C8a,L5a1e for error function prec double derfc.f gams C8a,L5a1e for complementary error function prec double dexp.f gams C4b for exponential function prec double dexprl.f gams C4b for relative error exp from first order prec double dfac.f gams C1 for factorial prec double dgami.f gams C7e for incomplete gamma function prec double dgamic.f gams C7e for complementary incomplete gamma function prec double dgamit.f gams C7e for Tricomi incomplete gamma function prec double dgamma.f gams C7a for gamma function prec double dgamr.f gams C7a for reciprocal gamma function prec double dint.f gams C1 for truncate double precision to integral value prec double disclaimer dlbeta.f gams C7b for log beta function prec double dlgams.f gams C7a for log gamma function with sign prec double dli.f gams C5 for logarithmic integral prec double dlngam.f gams C7a for log absolute gamma function prec double dlnrel.f gams C4b for relative error logarithm prec double dlog.f gams C4b for natural logarithm prec double dlog10.f gams C4b for common logarithm prec double dpoch.f gams C7a for Pochhammer generalized symbol prec double dpsi.f gams C7c for psi or digamma function prec double dshi.f gams C6 for hyperbolic sine integral prec double dsi.f gams C6 for sine integral prec double dsin.f gams C4a for sine prec double dsindg.f gams C4a for sine, degree prec double dsinh.f gams C4c for hyperbolic sine prec double dspenc.f gams C5 for Spence function, related to dilogarithm prec double dsqrt.f gams C2 for square root prec double dtan.f gams C4a for tangent prec double dtanh.f gams C4c for hyperbolic tangent prec double e1.f gams C5 for exponential integral ei.f gams C5 for exponential integral erf.f gams C8a,L5a1e for error function erfc.f gams C8a,L5a1e for complementary error function exp.f gams C4b for exponential function exprel.f gams C4b for relative error exp from first order fac.f gams C1 for factorial gami.f gams C7e for incomplete gamma function gamic.f gams C7e for complementary incomplete gamma function gamit.f gams C7e for tricomi incomplete gamma function gamma.f gams C7a for gamma function gamr.f gams C7a for reciprocal gamma function initds.f gams C3a2 for initialize orthogonal polynomial series prec double inits.f gams C3a2 for initialize orthogonal polynomial series poch.f gams C7a for Pochhammer generalized symbol psi.f gams C7c for psi or digamma function r9atn1.f for arc tangent from first order r9gaml.f for gamma under and overflow limits r9lgmc.f for log gamma correction term r9ln2r.f for relative error logarithm from second order r9pak.f for pack floating point number r9upak.f for unpack floating point number rand.f gams L6a21 for portable uniform random numbers randgs.f gams L6a14 for portable normal random numbers random.f gams L6a21 for portable uniform random numbers ranf.f gams L6a21 for portable uniform random numbers shi.f gams C6 for hyperbolic sine integral si.f gams C6 for sine integral sin.f gams C4a for sine sindg.f gams C4a for sine in degree sinh.f gams C4c for hyperbolic sine spenc.f gams C5 for Spence function, related to dilogarithm sqrt.f gams C2 for square root tan.f gams C4a for tangent tanh.f gams C4c for hyperbolic tangent binom.f gams C1 for binomial fac(n)/(fac(m)*fac(n-m)) dbinom.f gams C1 for binomial fac(n)/(fac(m)*fac(n-m)) prec double poch1.f gams C7a for Pochhammer generalized symbol, (poch(a, x)-1)/x dpoch1.f gams C7a for Pochhammer generalized symbol, (poch(a, x)-1)/x prec double Deleted/ for machine constants, stack that duplicate supported routines in port c0lgmc.f d9admp.f d9aimp.f d9b0mp.f d9b1mp.f d9chm.f d9chu.f d9gmic.f d9gmit.f d9knus.f d9lgic.f d9lgit.f d9sifg.f e9rint.f entsrc.f eprint.f erroff.f i0tk00.f i8save.f istkgt.f istkin.f istkmd.f istkpr.f istkqu.f istkrl.f istkst.f nerror.f r9admp.f r9aimp.f r9chm.f r9chu.f r9gmic.f r9gmit.f r9knus.f r9lgic.f r9lgit.f r9sifg.f retsrc.f s88fmt.f s9comp.f seterr.f seteru.f slatec_index ----------------------------------------------------------- for machine constants, stack that duplicate path: /netlib/fn/Deleted/ ----------------------------------------------------------- d1mach.f i1mach.f istkgs.f r1mach.f ----------------------------------------------------------- for small set of extensions to f77 that supports path: /netlib/fortran-m/ ----------------------------------------------------------- # ====================================================================== # Fortran M, Version 1.0 Date: February 3, 1994 # ====================================================================== # # -------------------------- # Available software/reports: # -------------------------- PAPER.ps PAPER/ README fm_v1.0/ for (FOR XNETLIB USERS ONLY) This is the Fortran M compiler and user manual in tar compressed form (1545886 bytes). # This cannot be retrieved via email. fm_prog_v1.0.ps for (FOR XNETLIB USERS ONLY) This is a compressed tar file of the user manual "Programming in Fortran M" in postscript format (127675 bytes). # This cannot be retrieved via email. fm_prog_v1.0/ for (FOR XNETLIB USERS ONLY) This is a compressed tar file of the user manual "Programming in Fortran M" in latex format (64447 bytes). # This cannot be retrieved via email. reports/ for Subdirectory containing various Fortran M-related papers and technical reports # ******************* # Questions/comments? Direct email to fortran-m@mcs.anl.gov # ******************* # Ian Foster # Robert Olson # Steven Tuecke # ====================================================================== # ****************** # WHAT IS Fortran M? # ****************** # Fortran M is a small set of extensions to Fortran 77 that supports # a modular approach to the design of message-passing programs. It has # the following features. # (1) Modularity. Programs are constructed by using explicitly-declared # communication channels to plug together program modules called # processes. A process can encapsulate common data, subprocesses, and # internal communication. # (2) Safety. Operations on channels are restricted so as to guarantee # deterministic execution, even in dynamic computations that create and # delete processes and channels. Channels are typed, so a compiler can # check for correct usage. # (3) Architecture Independence. The mapping of processes to processors # can be specified with respect to a virtual computer with size and # shape different from that of the target computer. Mapping is # specified by annotations that influence performance but not # correctness. # (4) Efficiency. Fortran M can be compiled efficiently for # uniprocessors, shared-memory computers, distributed-memory computers, # and networks of workstations. Because message passing is incorporated # into the language, a compiler can optimize communication as well as # computation. # Compatability libraries are available that allow the integration of # message-passing programs into an Fortran M framework. Send mail to # fortran-m@mcs.anl.gov for details. A compilation system that # integrates Fortran M and HPF is under development in collaboration # with Syracuse University. # For more information, see the user manual or use World Wide Web at # address # http://www.mcs.anl.gov/fortran-m # (WWW is a distributed multimedia system, accessible for example # via NCSA XMosaic.) The server currently provides FM tutorial slides, # the FM manual, application case studies, and programming examples. # Fortran M has been funded in part by NSF and DOE. # ====================================================================== ----------------------------------------------------------- path: /netlib/fortran-m/PAPER/ ----------------------------------------------------------- atm.eps atm_ocn.eps dynamic.eps histo.eps map.eps p.dvi ----------------------------------------------------------- for (FOR XNETLIB USERS ONLY) This is a compressed path: /netlib/fortran-m/fm_prog_v1.0/ ----------------------------------------------------------- argonne.ps fm_prog.tex makefile map.eps programs/ rel_hdr.tex tr_hdr.tex ----------------------------------------------------------- path: /netlib/fortran-m/fm_prog_v1.0/programs/ ----------------------------------------------------------- cpp_ex.FM example1.fm intent1.fm intent2.fm makefile merger1.fm ring1.fm ring2.fm tree.fm work_man.fm ----------------------------------------------------------- for (FOR XNETLIB USERS ONLY) This is the Fortran M path: /netlib/fortran-m/fm_v1.0/ ----------------------------------------------------------- COPYRIGHT_and_DISCLAIMER HELP INSTALL Makefile Projects README configs/ configure docs/ examples/ scripts/ src/ support/ test/ ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/configs/ ----------------------------------------------------------- crayc90.cf/ iris.cf/ next040.cf/ next486.cf/ rs6000.cf/ rs6000_f2c.cf/ sun4.cf/ ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/configs/crayc90.cf/ ----------------------------------------------------------- config config.sh ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/configs/iris.cf/ ----------------------------------------------------------- config config.sh ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/configs/next040.cf/ ----------------------------------------------------------- config config.sh ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/configs/next486.cf/ ----------------------------------------------------------- config config.sh ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/configs/rs6000.cf/ ----------------------------------------------------------- config config.sh ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/configs/rs6000_f2c.cf/ ----------------------------------------------------------- config config.sh ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/configs/sun4.cf/ ----------------------------------------------------------- config config.sh ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/docs/ ----------------------------------------------------------- fm_prog_v1.0/ fm_prog_v1.0.ps fortran-m.ps ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/docs/fm_prog_v1.0/ ----------------------------------------------------------- argonne.ps fm_prog.tex makefile map.eps programs/ rel_hdr.tex tr_hdr.tex ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/docs/fm_prog_v1.0/programs/ ----------------------------------------------------------- cpp_ex.FM example1.fm intent1.fm intent2.fm makefile merger1.fm ring1.fm ring2.fm tree.fm work_man.fm ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/examples/ ----------------------------------------------------------- Makefile README dirichlet.fm fm_prog_examples/ hello.fm hello2.fm oneproc.fm par_prefix.fm par_prefix.fmp par_prefix_driver.fm par_prefix_driver.fmp prodcons.fm prodcons2.fm ring.fm test_common.fm test_common_1.fm ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/examples/fm_prog_examples/ ----------------------------------------------------------- README cpp_ex.FM example1.fm intent1.fm intent2.fm makefile merger1.fm ring1.fm ring2.fm tree.fm work_man.fm ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/scripts/ ----------------------------------------------------------- move-if-change ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/src/ ----------------------------------------------------------- Makefile.base TAGS compiler/ cpp/ fm_yoke_runtime/ include/ parser/ perl/ yoke/ ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/src/compiler/ ----------------------------------------------------------- CodeGenNotes Makefile.base TAGS all.pl array.pl cf_utils.pl code.pl debug.pl dump.pl error.pl f72.pl fm fm_collect fm_collect_old fm_collect_proc fm_main.pl ftypes.ph getline.pl loops.pl newgetopt.pl portdict.pl prim.ph proc-gen-spawn.pl proc-gen-sr-wrap.pl proc-par-block.pl proc-ports.pl proc-stmt.pl proc-wrapperHeader.pl processors.pl readfile.pl recvcode state.pl tree.pl types-new.pl types.pl utils.pl vardict.pl ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/src/cpp/ ----------------------------------------------------------- Makefile.base alloca.c cccp.c cexp.y ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/src/fm_yoke_runtime/ ----------------------------------------------------------- FM_Notes Makefile Makefile.base TAGS channel.c debug.c fm.h fm_defs.h fm_fortran_interface.h fm_fortran_types.h fm_funcs.h fm_globals.h fm_types.h handler.c init.c manager.c manager_req.c migrate.c migrate_new.c pblock.c pindex.c process.c shutdown.c sr.c vcomputer.c ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/src/include/ ----------------------------------------------------------- Makefile.base util.h yoke.h yoke_c_hdr.h ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/src/parser/ ----------------------------------------------------------- Makefile.base alloca.c ftest ftest-old.pl ftest.pl gram.c gram.h gram.output gram.y lex.c lex.l mktoknames parse.c perl_subs.c prim.h prim.ph prim2ph symbol_redefines.h toknames.c tree.c tree.h types.def types.h usersubs.def ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/src/perl/ ----------------------------------------------------------- Artistic Configure Copying EXTERN.h INTERN.h MANIFEST Makefile.SH PACKINGLIST@3 README README.ncr README.uport README.xenix TAGS Wishlist arg.h array.c array.h c2ph.SH c2ph.doc cflags.SH client cmd.c cmd.h config.H config_h.SH cons.c consarg.c doSH doarg.c doio.c dolist.c dump.c eval.c form.c form.h gettest h2ph.SH handy.h hash.c hash.h installperl ioctl.pl isuidperl makedepend.SH makedir.SH malloc.c patchlevel.h patchout perl.c perl.c.p18 perl.c.save perl.h perl.h.p18 perl.man perlsh perly.fixer perly.y pstruct regcomp.c regcomp.h regexec.c regexp.h server spat.h stab.c stab.h str.c str.h toke.c usersub.c util.c util.h ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/src/yoke/ ----------------------------------------------------------- Makefile.base Makefile.crayc90 Makefile.sun4 TAGS args.c config_orig.h defs.h error.c funcs.h getpagesize.h globals.h gmalloc.c interface.c macros.h malloc.h md_unix.c proto_tcp.c proto_tcp.c.save proto_tcp.h sys_incs.h test.f test_c.c types.h util.c util.h yoke.h yoke_c_hdr.h yoke_internal.h ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/support/ ----------------------------------------------------------- constants genMakefile install_vars remove_makefile_include remove_makefile_include.ed run_tests shadow_tree tar.exclude ----------------------------------------------------------- path: /netlib/fortran-m/fm_v1.0/test/ ----------------------------------------------------------- .dbxinit Makefile Makefile.base Makefile.base.in channels.FM char.fm fm_common.fm gauss.fm merger_test.fm migboth.fm migin.fm migmany.FM migmany.fm migout.fm node_test.fm node_test_c.c probe_test.fm processes.fm ring_checksum.fm str2int.c test_moveport.fm test_submachine.fm ----------------------------------------------------------- for Subdirectory containing various Fortran path: /netlib/fortran-m/reports/ ----------------------------------------------------------- # This directory contains the following Fortran M-related reports: fortran-m.ps # Fortran M: A Language for Modular Parallel Programming Ian Foster and Mani Chandy Preprint MCS-P327-0992, Argonne National Lab. Compressed postscript: 127337 bytes. fortran-m/ # Fortran M: A Language for Modular Parallel Programming Ian Foster and Mani Chandy Preprint MCS-P327-0992, Argonne National Lab. Compressed tar file: 84201 bytes. determinism.ps # A Deterministic Notation for Cooperating Processes Mani Chandy and Ian Foster Preprint MCS-P346-0193, Argonne National Lab. Compressed postscript: 76843 bytes. determinism/ # A Deterministic Notation for Cooperating Processes Mani Chandy and Ian Foster Preprint MCS-P346-0193, Argonne National Lab. Compressed tar file: 36455 bytes. shpcc94.ps # A Compilation System that Integrates High Performance Fortran and Fortran M (extended abstract) Ian Foster, Bhaven Avalani, Alok Choudhary, and Ming Xu Proc. 1994 Scalable High Performance Computing Conference (to appear). Compressed postscript: 46813 bytes. shpcc94/ # A Compilation System that Integrates High Performance Fortran and Fortran M (extended abstract) Ian Foster, Bhaven Avalani, Alok Choudhary, and Ming Xu Proc. 1994 Scalable High Performance Computing Conference (to appear). Compressed tar file: 22690 bytes. ijsa.ps # Integrated Support for Task and Data Parallelism Mani Chandy, Ian Foster, Ken Kennedy, Charles Koelbel, and Chau-Wen Tseng International Journal of Supercomputer Applications (to appear). Compressed postscript: 93419 bytes. ijsa/ # Integrated Support for Task and Data Parallelism Mani Chandy, Ian Foster, Ken Kennedy, Charles Koelbel, and Chau-Wen Tseng International Journal of Supercomputer Applications (to appear). Compressed tar file: 36086 bytes. definition.ps # Ian Foster and Mani Chandy Fortran M Language Definition Technical Report ANL-93/28, Argonne National Lab, 1993. Compressed postscript: 42547 bytes. definition/ # Ian Foster and Mani Chandy Fortran M Language Definition Technical Report ANL-93/28, Argonne National Lab, 1993. Compressed tar file: 10485 bytes. ----------------------------------------------------------- # Ian Foster and Mani Chandy path: /netlib/fortran-m/reports/definition/ ----------------------------------------------------------- p.tex ----------------------------------------------------------- # A Deterministic Notation for Cooperating path: /netlib/fortran-m/reports/determinism/ ----------------------------------------------------------- channel.eps diamond.eps dsav.eps p.tex ----------------------------------------------------------- # Fortran M: A Language for Modular Parallel path: /netlib/fortran-m/reports/fortran-m/ ----------------------------------------------------------- atm.eps atm_ocn.eps dynamic.eps histo.eps map.eps p.dvi ----------------------------------------------------------- # Integrated Support for Task and Data Parallelism path: /netlib/fortran-m/reports/ijsa/ ----------------------------------------------------------- fortD.tex p.tex title.ps ----------------------------------------------------------- # A Compilation System that Integrates High path: /netlib/fortran-m/reports/shpcc94/ ----------------------------------------------------------- convolution.eps fmd.eps p.tex ----------------------------------------------------------- for tools specific to Fortran: a single/double path: /netlib/fortran/ ----------------------------------------------------------- s2d/ for converting between Fortran single and double precision by Jim Meyering, Univ. Texas gams s1 lang C # shar of uuencode of gzip of gzip of tar (sic) ftnchek/ for detecting unused, uninitialized, and undeclared variables by moniot@dsm.fordham.edu (Robert Moniot) gams s2 # compressed binary file, not available by email size 495 kB ----------------------------------------------------------- for detecting unused, uninitialized, and undeclared path: /netlib/fortran/ftnchek/ ----------------------------------------------------------- ftnchek-2.8.3/ ----------------------------------------------------------- path: /netlib/fortran/ftnchek/ftnchek-2.8.3/ ----------------------------------------------------------- PATCHES README average.f average.out build-alpha.com build.com cc.com dcl2inc.awk dcl2inc.doc dcl2inc.man dcl2inc.ps dcl2inc.sh exprtype.c fcl2vcg.doc fcl2vcg.man fcl2vcg.ps fcl2vcg.sh forlex.c fortran.c fortran.y ftnchek.c ftnchek.def ftnchek.doc ftnchek.h ftnchek.hlp ftnchek.man ftnchek.ps intrins.h iokeywds.h keywords.h link-alpha.com link.com makefile makefile.bc makefile.mpw makefile.unix man2ps pgsymtab.c plsymtab.c pointer.patch project.c shell_mung.c symtab.c symtab.h test/ tokdefs.h ----------------------------------------------------------- path: /netlib/fortran/ftnchek/ftnchek-2.8.3/test/ ----------------------------------------------------------- Compare.sh Include/ Makefile Okay/ args01.f args02.f args03.f args04.f args05.f args06.f args07.f args08.f args09.f args10.f args11.f args12.f args13.f args14.f args15.f arrayclash.f assign.f average.f backslash.f backslash.opt chestnuts.f chestnuts.opt comclash.f comcmp.f comcmp.opt complex.f complex.opt comtest.f comusage.f comusage.opt correct.f dectab.f dectab.opt dims.f dims.opt do_enddo.f do_enddo.opt help.opt include.f include.opt intrinstest.f namelist.f namelist.opt noblanks.f noblanks.opt strings.f strings.opt t208a.f t208b.f t208c.f t208d.f t208e.f t208f.f t208g.f t208h.f t208i.f t208j.f t208k.f t208l.f t208m.f t208n.f t208o.f t208p.f t208q.f t208r.f t208s.f t208t.f t208u.f t208v.f t208w.f t208x.f unixincluded.f unixincluded.opt usage.f ----------------------------------------------------------- path: /netlib/fortran/ftnchek/ftnchek-2.8.3/test/Include/ ----------------------------------------------------------- stats.h ----------------------------------------------------------- path: /netlib/fortran/ftnchek/ftnchek-2.8.3/test/Okay/ ----------------------------------------------------------- adp.inc agg.inc args01.fc0 args01.fc1 args01.fc2 args01.fc3 args02.fc0 args02.fc1 args02.fc2 args02.fc3 args03.fc0 args03.fc1 args03.fc2 args03.fc3 args04.fc0 args04.fc1 args04.fc2 args04.fc3 args05.fc0 args05.fc1 args05.fc2 args05.fc3 args06.fc0 args06.fc1 args06.fc2 args06.fc3 args07.fc0 args07.fc1 args07.fc2 args07.fc3 args08.fc0 args08.fc1 args08.fc2 args08.fc3 args09.fc0 args09.fc1 args09.fc2 args09.fc3 args10.fc0 args10.fc1 args10.fc2 args10.fc3 args11.fc0 args11.fc1 args11.fc2 args11.fc3 args12.fc0 args12.fc1 args12.fc2 args12.fc3 args13.fc0 args13.fc1 args13.fc2 args13.fc3 args14.fc0 args14.fc1 args14.fc2 args14.fc3 args15.fc0 args15.fc1 args15.fc2 args15.fc3 arrayclash.fc0 arrayclash.fc1 arrayclash.fc2 arrayclash.fc3 assign.fc1 assign.fc2 assign.fc3 assign.fc4 assign.fc5 assign.fc6 assign.fc7 assign.fc8 assign.fcA assign.fcB assign.fcC average.fc2 average.fcl average.out backslash.fcl char.inc chestnuts.fcl cnd.inc coefs.inc comclash.fcl comcmp.fc0 comcmp.fc1 comcmp.fc2 comcmp.fc3 comcmp.fcl comcmp.vcg complex.fcl comtest.fcl comusage.fc0 comusage.fc1 comusage.fc2 comusage.fc3 comusage.fcl comusage.vcg correct.fc1 correct.fcl correct.pcl correct.prj dectab.fcl diffc.inc diffn.inc dims.dc0 dims.dc1 dims.dc2 dims.dc3 dims.dc4 dims.dc5 dims.dc6 dims.dc7 dims.dc8 dims.fcl do_enddo.fcl efnum.inc fft.inc fmarkers.inc force.inc forceb.inc grid.inc help.fcl include.fcl intrinstest.fcl link.inc linkb.inc linkf.inc mth.inc namelist.dc0 namelist.dc1 namelist.dc2 namelist.dc3 namelist.dc4 namelist.dc5 namelist.dc6 namelist.dc7 namelist.dc8 namelist.fcl noblanks.fcl phi.inc pres.inc psteps.inc ptds.inc rsize.inc steps.inc stiff.inc strings.fcl t208a.dc0 t208a.dc2 t208a.dc3 t208a.dc4 t208a.dc5 t208a.dc6 t208a.dc7 t208a.dc8 t208b.dc0 t208b.dc1 t208b.dc2 t208b.dc3 t208b.dc4 t208b.dc5 t208b.dc6 t208b.dc7 t208b.dc8 t208c.dc0 t208c.dc2 t208c.dc3 t208c.dc4 t208c.dc5 t208c.dc6 t208c.dc7 t208c.dc8 t208d.dc0 t208d.dc1 t208d.dc2 t208d.dc3 t208d.dc4 t208d.dc5 t208d.dc6 t208d.dc7 t208d.dc8 t208e.dc0 t208e.dc1 t208e.dc2 t208e.dc3 t208e.dc4 t208e.dc5 t208e.dc6 t208e.dc7 t208e.dc8 t208f.dc0 t208f.dc1 t208f.dc2 t208f.dc3 t208f.dc4 t208f.dc5 t208f.dc6 t208f.dc7 t208f.dc8 t208g.dc0 t208g.dc2 t208g.dc3 t208g.dc4 t208g.dc5 t208g.dc6 t208g.dc7 t208g.dc8 t208h.dc0 t208h.dc1 t208h.dc2 t208h.dc3 t208h.dc4 t208h.dc5 t208h.dc6 t208h.dc7 t208h.dc8 t208i.dc0 t208i.dc1 t208i.dc2 t208i.dc3 t208i.dc4 t208i.dc5 t208i.dc6 t208i.dc7 t208i.dc8 t208j.dc0 t208j.dc1 t208j.dc2 t208j.dc3 t208j.dc4 t208j.dc5 t208j.dc6 t208j.dc7 t208j.dc8 t208k.dc0 t208k.dc2 t208k.dc3 t208k.dc4 t208k.dc5 t208k.dc6 t208k.dc7 t208k.dc8 t208l.dc0 t208l.dc2 t208l.dc3 t208l.dc4 t208l.dc5 t208l.dc6 t208l.dc7 t208l.dc8 t208m.dc0 t208m.dc2 t208m.dc3 t208m.dc4 t208m.dc5 t208m.dc6 t208m.dc7 t208m.dc8 t208n.dc0 t208n.dc1 t208n.dc2 t208n.dc3 t208n.dc4 t208n.dc5 t208n.dc6 t208n.dc7 t208n.dc8 t208o.dc0 t208o.dc1 t208o.dc2 t208o.dc3 t208o.dc4 t208o.dc5 t208o.dc6 t208o.dc7 t208o.dc8 t208p.dc0 t208p.dc2 t208p.dc3 t208p.dc4 t208p.dc5 t208p.dc6 t208p.dc7 t208p.dc8 t208q.dc0 t208q.dc2 t208q.dc3 t208q.dc4 t208q.dc5 t208q.dc6 t208q.dc7 t208q.dc8 t208r.dc0 t208r.dc1 t208r.dc2 t208r.dc3 t208r.dc4 t208r.dc5 t208r.dc6 t208r.dc7 t208r.dc8 t208s.dc0 t208s.dc2 t208s.dc3 t208s.dc4 t208s.dc5 t208s.dc6 t208s.dc7 t208s.dc8 t208t.dc0 t208t.dc2 t208t.dc3 t208t.dc4 t208t.dc5 t208t.dc6 t208t.dc7 t208t.dc8 t208u.dc0 t208u.dc2 t208u.dc3 t208u.dc4 t208u.dc5 t208u.dc6 t208u.dc7 t208u.dc8 t208v.dc0 t208v.dc2 t208v.dc3 t208v.dc4 t208v.dc5 t208v.dc6 t208v.dc7 t208v.dc8 t208w.dc0 t208w.dc1 t208w.dc2 t208w.dc3 t208w.dc4 t208w.dc5 t208w.dc6 t208w.dc7 t208w.dc8 t208x.dc0 t208x.dc1 t208x.dc2 t208x.dc3 t208x.dc4 t208x.dc5 t208x.dc6 t208x.dc7 t208x.dc8 t208x.dcl t208x.dcn t208x.err t208x.mak tdspace.inc unixincluded.fcl usage.fc0 usage.fc1 usage.fc2 usage.fc3 vel.inc wave.inc ----------------------------------------------------------- for converting between Fortran single and double path: /netlib/fortran/s2d/ ----------------------------------------------------------- f-s2d-1.2.1/ ----------------------------------------------------------- path: /netlib/fortran/s2d/f-s2d-1.2.1/ ----------------------------------------------------------- COPYING ChangeLog INSTALL Makefile.in README config.h.in configure configure.in install-sh lib/ man/ mkinstalldirs src/ ----------------------------------------------------------- path: /netlib/fortran/s2d/f-s2d-1.2.1/lib/ ----------------------------------------------------------- Makefile.in alloca.c error.c getopt.c getopt.h getopt1.c memcmp.c xmalloc.c ----------------------------------------------------------- path: /netlib/fortran/s2d/f-s2d-1.2.1/man/ ----------------------------------------------------------- Makefile.in f-ai.1 s2d.1 ----------------------------------------------------------- path: /netlib/fortran/s2d/f-s2d-1.2.1/src/ ----------------------------------------------------------- Makefile.in Test/ config/ d2s-lex.c d2s.l f-ai.sh flbreak.c fljoin.c init-d2s.h init-s2d.h init.c init.h main.c readline.c readline.h s2d-lex.c s2d.l symbol.c symbol.h system.h version.c yydecl.h ----------------------------------------------------------- path: /netlib/fortran/s2d/f-s2d-1.2.1/src/Test/ ----------------------------------------------------------- Makefile fljoin-in idem-double.f idem-single.f single.f ----------------------------------------------------------- path: /netlib/fortran/s2d/f-s2d-1.2.1/src/config/ ----------------------------------------------------------- GNUmakefile Makefile README config.sh core.names f77.names in in-d2s in-s2d linpack.names pchip.names sqpe.names ----------------------------------------------------------- for floating point arithmetic path: /netlib/fp/ ----------------------------------------------------------- dtoa.c by David Gay for ANSI C or C++ source for functions strtod and dtoa that do decimal-to-binary and binary-to-decimal conversions. Comments at the beginning describe various preprocessor variables that can be defined to make this code work with binary IEEE, VAX, or IBM-mainframe arithmetic. To get Postscript for a paper about dtoa.c, ask netlib@research.att.com to send att/cs/doc/90/4-10.ps g_fmt.c by David Gay for ANSI C or C++ source for function g_fmt(char *, double): with help from dtoa, g_fmt(buf, x) sets buf to the shortest decimal string that correctly rounds to x. rnd_prod.s Assembly code, usable under UNIX UTS System V Release 2.6b, that uses IBM-mainframe extended-precision floating-point instructions to compute rounded products and quotients. testbase by Vern Paxson for announcing ftp access for test program ucbtest/ for testing certain difficult cases of IEEE 754 floating-point arithmetic by dgh@validgh.com (David G. Hough) et al. lang C size 1 megabyte # Retrieve by ftp or http, not email. ----------------------------------------------------------- for testing certain difficult cases of IEEE 754 path: /netlib/fp/ucbtest/ ----------------------------------------------------------- ucb/ ----------------------------------------------------------- path: /netlib/fp/ucbtest/ucb/ ----------------------------------------------------------- libctest/ libftest/ ucbDOS/ ucbREADME/ ucbctest/ ucbeef/ ucbftest/ ucblib/ ucbtest/ ----------------------------------------------------------- path: /netlib/fp/ucbtest/ucb/libctest/ ----------------------------------------------------------- Makefile libctest.h testabsd.c testabss.c testabsx.c testacosd.c testacoss.c testacosx.c testadd.c testaddd.c testadds.c testaddx.c testasind.c testasins.c testasinx.c testatan2d.c testatan2s.c testatan2x.c testatand.c testatans.c testatanx.c testcabs.c testcabsd.c testcabss.c testcabsx.c testceild.c testceils.c testceilx.c testcosd.c testcoshd.c testcoshs.c testcoshx.c testcoss.c testcosx.c testdiv.c testdivd.c testdivs.c testdivx.c testexpd.c testexpm1d.c testexpm1s.c testexpm1x.c testexps.c testexpx.c testfloord.c testfloors.c testfloorx.c testfunc1.c testfunc2.c testhypotd.c testhypots.c testhypotx.c testlog10d.c testlog10s.c testlog10x.c testlog1pd.c testlog1ps.c testlog1px.c testlogd.c testlogs.c testlogx.c testmodd.c testmods.c testmodx.c testmul.c testmuld.c testmuls.c testmulx.c testpowd.c testpows.c testpowx.c testsignif.c testsignifd.c testsignifs.c testsignifx.c testsind.c testsinhd.c testsinhs.c testsinhx.c testsins.c testsinx.c testsqrtd.c testsqrts.c testsqrtx.c testsub.c testsubd.c testsubs.c testsubx.c testtand.c testtanhd.c testtanhs.c testtanhx.c testtans.c testtanx.c testtodouble.c testtodoubled.c testtodoubles.c testtodoublex.c testtoext.c testtoextd.c testtoexts.c testtoextx.c testtoint.c testtointd.c testtoints.c testtointx.c testtosingle.c testtosingled.c testtosingles.c testtosinglex.c ----------------------------------------------------------- path: /netlib/fp/ucbtest/ucb/libftest/ ----------------------------------------------------------- Makefile libftest.h testabsd.F testabss.F testabsx.F testacosd.F testacoss.F testacosx.F testadd.F testaddd.F testadds.F testaddx.F testasind.F testasins.F testasinx.F testatan2d.F testatan2s.F testatan2x.F testatand.F testatans.F testatanx.F testcabsd.F testcabss.F testcabsx.F testceil.F testceild.F testceils.F testceilx.F testcosd.F testcoshd.F testcoshs.F testcoshx.F testcoss.F testcosx.F testdiv.F testdivd.F testdivs.F testdivx.F testexpd.F testexpm1.F testexpm1d.F testexpm1s.F testexpm1x.F testexps.F testexpx.F testfloor.F testfloord.F testfloors.F testfloorx.F testfunc1.F testfunc1c.F testfunc2.F testfunc2c.F testhypotd.F testhypots.F testhypotx.F testlog10d.F testlog10s.F testlog10x.F testlog1p.F testlog1pd.F testlog1ps.F testlog1px.F testlogd.F testlogs.F testlogx.F testmodd.F testmods.F testmodx.F testmul.F testmuld.F testmuls.F testmulx.F testpow.F testpowd.F testpows.F testpowx.F testsignif.F testsignifd.F testsignifs.F testsignifx.F testsind.F testsinhd.F testsinhs.F testsinhx.F testsins.F testsinx.F testsqrtd.F testsqrts.F testsqrtx.F testsub.F testsubd.F testsubs.F testsubx.F testtand.F testtanhd.F testtanhs.F testtanhx.F testtans.F testtanx.F testtodouble.F testtodoubled.F testtodoubles.F testtodoublex.F testtoext.F testtoextd.F testtoexts.F testtoextx.F testtoint.F testtointd.F testtoints.F testtointx.F testtosingle.F testtosingled.F testtosingles.F testtosinglex.F ----------------------------------------------------------- path: /netlib/fp/ucbtest/ucb/ucbDOS/ ----------------------------------------------------------- README copysign.c ddivtest.exe ddivtest.ide dmultest.exe dmultest.ide dsqrtest.exe dsqrtest.ide fdivtest.exe fdivtest.ide fdlibm.h fmultest.exe fmultest.ide fsqrtest.exe fsqrtest.ide readme results rint.c runall.bat scalbn.c ucbdivte.c ucbmulte.c ucbsqrte.c ucbtest.c ucbtest.h wdivtest.exe wdivtest.ide wmultest.exe wmultest.ide wsqrtest.exe wsqrtest.ide ----------------------------------------------------------- path: /netlib/fp/ucbtest/ucb/ucbREADME/ ----------------------------------------------------------- Makefile README TESTING aix.sh alpha.osf.gcc.log alpha.osf.gcc.sh apogee30.log apogee30.sh aux.log aux.sh dolog.sh generic.sh hpux.log hpux.sh irix.log irix.sh linux.log linux.sh log.sh m68k.hp.netbsd1.0a.log m68k.hp.netbsd1.0a.sh mips.ultrix.gcc.log mips.ultrix.gcc.sh pc201.fix.log pc201.flaw.log pc201.sh readme readme.about.testing sc301.log sc301.sh sunos3.fpa.log sunos3.fpa.sh sunos3.log sunos3.sh sunos4.log sunos4.sh sunos5.fdlibm.gcc.log sunos5.fdlibm.gcc.sh sunos5.gcc.log sunos5.gcc.sh ----------------------------------------------------------- path: /netlib/fp/ucbtest/ucb/ucbctest/ ----------------------------------------------------------- Makefile beefmain.c divmain.c findpimain.c libmain.c mulmain.c par.c pi.c sqrmain.c ----------------------------------------------------------- path: /netlib/fp/ucbtest/ucb/ucbeef/ ----------------------------------------------------------- README anlyzr.c beefscan.c distd.c er_atn.c er_dfl.c er_em1.c er_l1p.c er_log.c er_sin.c findpi.c local.h mpwglue.c others.c phase1.c randm.c report.c sys.h ----------------------------------------------------------- path: /netlib/fp/ucbtest/ucb/ucbftest/ ----------------------------------------------------------- Makefile beefmain.F divmain.F findpimain.F libmain.F mulmain.F par.F pi.F sqrmain.F ucbftest.h ----------------------------------------------------------- path: /netlib/fp/ucbtest/ucb/ucblib/ ----------------------------------------------------------- acosd.input acosq.input acoss.input addd.input addq.input adds.input asind.input asinq.input asins.input atan2d.input atan2q.input atan2s.input atand.input atanq.input atans.input cabsd.input cabsq.input cabss.input ceild.input ceilq.input ceils.input cosd.input coshd.input coshq.input coshs.input cosq.input coss.input divd.input divq.input divs.input expd.input expq.input exps.input fabsd.input fabsq.input fabss.input floord.input floorq.input floors.input fmodd.input fmodq.input fmods.input hypotd.input hypotq.input hypots.input log10d.input log10q.input log10s.input logd.input logq.input logs.input muld.input mulq.input muls.input powd.input powq.input pows.input sind.input sinhd.input sinhq.input sinhs.input sinq.input sins.input sqrtd.input sqrtq.input sqrts.input subd.input subq.input subs.input tand.input tanhd.input tanhq.input tanhs.input tanq.input tans.input ----------------------------------------------------------- path: /netlib/fp/ucbtest/ucb/ucbtest/ ----------------------------------------------------------- beef.c div.c findpi.c fpce.S fpce.aux.c fpce.i386.c fpce.m68k.c fpce.sparc.c ieee.c init.F init.c lib.c lib.h mul.c sqr.c ucbexit.c ucbtest.h ----------------------------------------------------------- for Generalized Cross Validation spline smoothing path: /netlib/gcv/ ----------------------------------------------------------- # see also toms/642. sbart.r for univariate smoothing spline automatically choosing the smoothing parameter by minimizing generalized cross validation lang Ratfor language with comments by Finbarr O'Sullivan ref "Comments on Dr. Silverman's Paper", J. Royal Statistical Society B (1985) 47, pp.39-40 sbart.f for univariate smoothing spline automatically choosing the smoothing parameter by minimizing generalized cross validation lang Fortran language with NO comments by Finbarr O'Sullivan ref "Comments on Dr. Silverman's Paper", J. Royal Statistical Society B (1985) 47, pp.39-40 bart/ for smoothing spline by Finbarr O'Sullivan size 200 kB gcvspl for B-spline data smoothing using generalized cross-validation and mean squared prediction or explicit user smoothing by H.J. Woltring, University of Nijmegen, Philips Medical Systems, Eindhoven (The Netherlands) # Natural B-spline data smoothing subroutine, using the Generalized Cross- Validation and Mean-Squared Prediction Error Criteria of Craven & Wahba (1979). Alternatively, the amount of smoothing can be given explicitly, or it can be based on the effective number of degrees of freedom in the smoothing process as defined by Wahba (1980). The model assumes uncorrelated, additive noise and essentially smooth, underlying functions. The noise may be non-stationary, and the independent co-ordinates may be spaced non-equidistantly. Multiple datasets, with common independent variables and weight factors are accomodated. A full description of the package is provided in: H.J. Woltring (1986), A FORTRAN package for generalized, cross-validatory spline smoothing and differentiation. Advances in Engineering Software 8(2):104-113 gcv1/ title gcvpack release 2, part 1 for generalized cross validation, also requires (gcv/gcv2) by D. Bates, M. Lindstrom, G. Wahba and B. Yandell Univ Wisconsin-Madison ref "GCVPACK-ROUTINES FOR GENERALIZED CROSS VALIDATION", TR 775(rev.), October, 1986. # Uses: dcopy dasum dqrsl dtrco dtrsl ddot dswap dqrdc dchdc dsvdc from linpack and the blas. If you have problems or questions, please mail details to gcvpack@stat.wisc.edu We may be contacted individually as follows: bates@stat.wisc.edu - Douglas Bates lindstro@stat.wisc.edu - Mary Lindstrom wahba@stat.wisc.edu - Grace Wahba yandell@stat.wisc.edu - Brian Yandell gcv2/ title gcvpack release 2, part 2 see gcv/gcv1 gcvdoc/ for error codes and update notices for (gcv/gcv1) and (gcv/gcv2) see gcv/gcv1 rkpk/ title RKPACK for smoothing spline by generalized cross validation or generalized maximum likelihood lang ratfor by C. Gu, University of Wisconsin-Madison [gu@stat.wisc.edu] ref SIAM J. Sci. Stat. Comp. 12, 383-398. alg Householder tridiagonalization with distributed truncation size 305 kB rkpk.tex vspline for non-parametric estimate of a smooth vector-valued function from noisy measurements by Jeff Fessler, Stanford University lang C alg generalization of (scalar) cubic-spline smoothing ref "Non-parametric fixed-interval smoothing with vector splines", IEEE ASSP grkpack/ title GRKPACK for smoothing spline ANOVA for data from exponential families lang ratfor by Yuedong Wang, University of Michigan [yuedong@umich.edu] ref Tech. Rep. 940, University of Wisconsin-Madison, Dept. of Statistics. alg generalization of RKPACK size 721 kB ----------------------------------------------------------- for smoothing spline path: /netlib/gcv/bart/ ----------------------------------------------------------- bart.d bart.i bden.d bden.i bhaz.d breslw.r cbnm.r cxghs.r elabsrcx.r evalle.r evalpl.r evlkdn.r evlkhz.r gden.r ghaz.r grhss.r gxv.r icreg.r icreg1.r iden.r iden1.r ihaz.r ihaz1.r lamv.r lamval.r lsamp1.r pcg.r sbart.r sbcox.r sbden.r sbhaz.r sbvc.r scvdn.r scvhz.r sdircx.r sdirdn.r sdirhz.r search.r setup.r sg.r sgram.r shessc.r shessd.r shessh.r shist.r sinerp.r sknotl.r slap.r slvcxp.r smv5.r srchcx.r srchdn.r srchhz.r sslvcx.r sslvdn.r sslvhz.r sslvlp.r sslvrg.r step.r stepp.r strap.r stxwx.r ----------------------------------------------------------- title gcvpack release 2, part 1 path: /netlib/gcv/gcv1/ ----------------------------------------------------------- Makefile dcfcr.f dcfcr1.f dcpmut.f dcrtz.f dctsx.f ddcom.f ddiag.f dftkf.f dgcv.f dgcv1.f dgemv.f dmakek.f dmaket.f dpdcr.f dpmse.f dpred.f dprmut.f dptpss.f dreps.f drsap.f dset.f dsetup.f dsgdc.f dsgdc1.f ----------------------------------------------------------- title gcvpack release 2, part 2 path: /netlib/gcv/gcv2/ ----------------------------------------------------------- dsnsm.f dsuy.f dtpss.f dtsvdc.f duni.f dvl.f dvlop.f dvmin.f dzdc.f fact.f inteqn.f inteqn.in inteqn.out mkpoly.f mktpar.f mkxys.f prmut.f testptpss.f testptpss.in testptpss.out testtpss.f testtpss.in testtpss.out ----------------------------------------------------------- for error codes and update notices for (gcv/gcv1) path: /netlib/gcv/gcvdoc/ ----------------------------------------------------------- info.numbers.doc major.changes.doc ----------------------------------------------------------- title GRKPACK path: /netlib/gcv/grkpack/ ----------------------------------------------------------- README examples/ grkpack/ grkpack.ps lib/ rkpack/ ----------------------------------------------------------- path: /netlib/gcv/grkpack/examples/ ----------------------------------------------------------- Makefile README bbci.r pima.dat pima.doc pima1.r pima2.r wesdr.dat wesdr.doc wesdr.r ----------------------------------------------------------- path: /netlib/gcv/grkpack/grkpack/ ----------------------------------------------------------- Makefile README dbimdr.f dbimdr.r dbisdr.f dbisdr.r dbmdr.f dbmdr.r dbsdr.f dbsdr.r dgmdr.f dgmdr.r dgsdr.f dgsdr.r dpmdr.f dpmdr.r dpsdr.f dpsdr.r ----------------------------------------------------------- path: /netlib/gcv/grkpack/lib/ ----------------------------------------------------------- Makefile README dasum.f daxpy.f dcopy.f ddot.f devlpl.f dgemv.f dlanor.f dln1px.f dnrm2.f dpbfa.f dpbsl.f dpofa.f dposl.f dprmut.f dqrdc.f dqrsl.f dscal.f dset.f dsort.f dswap.f dsymv.f dsyr2.f dtrsl.f dumnor.f idamax.f invnor.f lsame.f rnor.f uni.f xerbla.f ----------------------------------------------------------- path: /netlib/gcv/grkpack/rkpack/ ----------------------------------------------------------- Makefile README dcoef.f dcoef.r dcore.f dcore.r dcrdr.f dcrdr.r ddeev.f ddeev.r deval.f deval.r dgold.f dgold.r dmcdc.f dmcdc.r dmudr.f dmudr.r dmudr1.f dmudr1.r dqrslm.f dqrslm.r dsidr.f dsidr.r dsms.f dsms.r dstup.f dstup.r dsytr.f dsytr.r dtrev.f dtrev.r ----------------------------------------------------------- title RKPACK path: /netlib/gcv/rkpk/ ----------------------------------------------------------- Makefile dcoef.r dcore.r dcrdr.r ddeev.r demo/ deval.r dgold.r dmcdc.r dmudr.r rkpk/ rkpk.header ----------------------------------------------------------- path: /netlib/gcv/rkpk/demo/ ----------------------------------------------------------- Makefile README cubic.r in.tptp input tensor.r tensor1.r thin.r tptp.r tptp1.r ----------------------------------------------------------- path: /netlib/gcv/rkpk/rkpk/ ----------------------------------------------------------- README demo/ lib/ rkpk/ rkpk.tex ----------------------------------------------------------- path: /netlib/gcv/rkpk/rkpk/demo/ ----------------------------------------------------------- Makefile README cubic.r in.tptp input tensor.r tensor1.r thin.r tptp.r tptp1.r ----------------------------------------------------------- path: /netlib/gcv/rkpk/rkpk/lib/ ----------------------------------------------------------- Makefile README dasum.f daxpy.f dcopy.f ddot.f dgemv.f dnrm2.f dpbfa.f dpbsl.f dpofa.f dposl.f dprmut.f dqrdc.f dqrsl.f dscal.f dset.f dswap.f dsymv.f dsyr2.f dtrsl.f idamax.f lsame.f rnor.f uni.f xerbla.f ----------------------------------------------------------- path: /netlib/gcv/rkpk/rkpk/rkpk/ ----------------------------------------------------------- Makefile README dcoef.f dcoef.r dcore.f dcore.r dcrdr.f dcrdr.r ddeev.f ddeev.r deval.f deval.r dgold.f dgold.r dmcdc.f dmcdc.r dmudr.f dmudr.r dmudr1.f dmudr1.r dqrslm.f dqrslm.r dsidr.f dsidr.r dsms.f dsms.r dstup.f dstup.r dsytr.f dsytr.r dtrev.f dtrev.r ----------------------------------------------------------- for multi-processing Time Line and State Graph path: /netlib/gmat/ ----------------------------------------------------------- readme for overview of gmat gmat/ for documentation for the GMAT multiprocessing Timeline and Stategraph tools # It includes example data files for both logging styles (CRI and NLTSS { same as the Cray Compatibility library on the Alliant FX/8 }). The README file has appropriate instructions and information. size 139266 bytes stategraph/ for source code for the GMAT Stategraph Analysis tool # This tool analyzes multiprocessing log files as an inheritance tree of tasks. Code for both Sunview and X-Window (R3 & R4 - Athena toolkit) implementations is included. size 817604 bytes timeline/ for source for the GMAT Timeline tool # This tool analyzes multiprocessing log files as a flowing sequence of events for multiple concurrent tasks. Code for both Sunview and X-Window (R3 & R4 - Athena toolkit) implementations is included. size 1119621 bytes ----------------------------------------------------------- for documentation for the GMAT multiprocessing path: /netlib/gmat/gmat/ ----------------------------------------------------------- README examples/ gmat.ms ----------------------------------------------------------- path: /netlib/gmat/gmat/examples/ ----------------------------------------------------------- User_Actions trc.CRAY.Z trc.CTSS.Z ----------------------------------------------------------- for source code for the GMAT Stategraph Analysis path: /netlib/gmat/stategraph/ ----------------------------------------------------------- state/ ----------------------------------------------------------- path: /netlib/gmat/stategraph/state/ ----------------------------------------------------------- Nmakefile SCCS/ Smakefile Xmakefile assign.c clscreen.c confirm.c data_input.c defines.h display.c doevents.c dotask.c draw.c driver.c externvars.h icons/ initialize.c key.c loads.c log_entry.h message.c notify.c open_dump.c open_trace.c plot_hist.c read_user.c state.msg winit.c xdoevents.c xdraw.c xexterns.h xicons/ xkey.c xnotify.c xwinit.c ----------------------------------------------------------- path: /netlib/gmat/stategraph/state/SCCS/ ----------------------------------------------------------- s.Smakefile s.Xmakefile s.assign.c s.clscreen.c s.confirm.c s.data_input.c s.defines.h s.display.c s.doevents.c s.dotask.c s.draw.c s.driver.c s.externvars.h s.initialize.c s.key.c s.loads.c s.log_entry.h s.message.c s.notify.c s.open_dump.c s.open_trace.c s.plot_hist.c s.read_user.c s.state.msg s.winit.c s.xdoevents.c s.xdraw.c s.xexterns.h s.xkey.c s.xnotify.c s.xwinit.c ----------------------------------------------------------- path: /netlib/gmat/stategraph/state/icons/ ----------------------------------------------------------- barrier.node choice.icon choice.node convert.icon five.icon five.node four.icon four.node hollow.icon hollow.node infray.icon infray.tri key_slv.icon key_slv.node master.icon master.node newpidle.c one.icon one.node pbind.icon pidle.icon preacq.icon proc.icon psuspnd.icon punbind.icon sg.icon solid.icon solid.node status.icon templat.node test.icon three.icon three.node two.icon two.node view.box wait_cs.icon wait_cs.tri wait_g.icon wait_g.tri wait_gn.icon wait_gn.tri wait_w.icon wait_w.tri waitb.icon waitb.node waitcs.icon waitcs.node waite.node waitf.icon waitf.node waitg.icon waitg.node waitgn.icon waitgn.node waitl.icon waitl.node waitt.node ----------------------------------------------------------- path: /netlib/gmat/stategraph/state/xicons/ ----------------------------------------------------------- choice.icon five.icon four.icon hollow.icon hollow.node infray.icon infray.node key_slv.icon master.icon master.node one.icon pbind.icon pidle.icon preacq.icon psuspnd.icon punbind.icon rv_chce.icon rv_fray.icon rv_key.icon rv_mstr.icon rv_sold.icon rv_sold.node rv_wait.icon sg.icon solid.icon solid.node three.icon two.icon wait_cs.icon wait_g.icon wait_gn.icon wait_w.icon waitb.node waitcs.node waite.node waitf.node waitg.node waitgn.node waitl.node waitt.node waitw.node ----------------------------------------------------------- for source for the GMAT Timeline tool path: /netlib/gmat/timeline/ ----------------------------------------------------------- time/ ----------------------------------------------------------- path: /netlib/gmat/timeline/time/ ----------------------------------------------------------- NEWS Nmakefile SCCS/ Smakefile Xmakefile assign.c check.c check_init.h clscreen.c confirm.c data_input.c defines.h display.c doevents.c draw.c driver.c externvars.h icons/ initialize.c key.c load_user.c loads.c log_entry.h message.c news.c notify.c open_dump.c open_trace.c plot_hist.c process.c rawdump.c time.msg winit.c xdisplay.c xdraw.c xexterns.h xicons/ xkey.c xnotify.c xwinit.c xwinit.h ----------------------------------------------------------- path: /netlib/gmat/timeline/time/SCCS/ ----------------------------------------------------------- s.NEWS s.Smakefile s.Xmakefile s.assign.c s.check.c s.check_init.h s.clscreen.c s.confirm.c s.data_input.c s.defines.h s.display.c s.doevents.c s.draw.c s.driver.c s.externvars.h s.initialize.c s.key.c s.load_user.c s.loads.c s.log_entry.h s.message.c s.news.c s.notify.c s.open_dump.c s.open_trace.c s.plot_hist.c s.process.c s.rawdump.c s.time.msg s.winit.c s.xdisplay.c s.xdraw.c s.xexterns.h s.xkey.c s.xnotify.c s.xwinit.c s.xwinit.h ----------------------------------------------------------- path: /netlib/gmat/timeline/time/icons/ ----------------------------------------------------------- blank.box blank.icon bottom.icon complet.icon complete.box dotted.line five.icon four.icon light.box light.icon mvic nfive.icon nfour.icon none.icon nseven.icon nsix.icon nthree.icon ntwo.icon octxic octxic% one.icon pbind.icon pidle.icon preacq.icon proc.icon psuspnd.icon punbind.icon recover.box recover.icon seven.icon six.icon start.box start.icon templat.icon template.box test.icon three.icon tl.icon two.icon zero.icon zspeed.icon ----------------------------------------------------------- path: /netlib/gmat/timeline/time/xicons/ ----------------------------------------------------------- blank.box blank.icon bottom.icon complet.icon complete.box dotted.line five.icon four.icon light.box mvxic nfive.icon nfour.icon none.icon nseven.icon nsix.icon nthree.icon ntwo.icon octxxic octxxic% one.icon pbind.bm pbind.icon pidle.icon pidle.pbm preacq.icon preacq.pbm proc.icon proc.pbm psuspnd.icon punbind.icon ready.line recover.box recover.icon running.line seven.icon six.icon start.box start.icon templat.icon test.icon three.icon tl.icon two.icon waitbnd.line zero.icon zspeed.icon ----------------------------------------------------------- for utilities useful to netlib clients, covered by path: /netlib/gnu/ ----------------------------------------------------------- copying for GNU General Public License (version 2, June 1991) gzip/ for source for gzip and some machine-specific executable versions: gzip is a program for compressing and uncompressing files. See gzip/readme for more details. File "copying" gives general conditions for copying gzip. # These are large, binary files unsuitable for email. Use ftp or the Web to download. ----------------------------------------------------------- for source for gzip and some machine-specific path: /netlib/gnu/gzip/ ----------------------------------------------------------- # All of the following files are binary, unsuitable for email. # Instead, use "ftp netlib.att.com" to retrieve. # Most of the binaries (Sun, HP, RS6000) are linked # with dynamic libraries. This can cause error messages # on machines that lack the libraries, or that have # older versions of them than the ones I linked against. # If this causes too many complaints, I can replace them # with statically linked binaries (which are usually # much larger). dmg@research.att.com src/ for gzip source size 220 kB cray.unicos.executable for gzip for Crays running UNICOS (built on a YMP) dec5000.executable for gzip for DECStation 5000 dos.executable for gzip for MS-DOS (compiled by Microsoft C 6.0A) hp.executable for gzip for HP 9000 rs6000.executable for gzip for IBM Risc System 6000 sgi.executable for gzip for SGI machines sun.executable for gzip for Sun Sparc readme ----------------------------------------------------------- for gzip source path: /netlib/gnu/gzip/src/ ----------------------------------------------------------- gzip-1.2.4/ ----------------------------------------------------------- path: /netlib/gnu/gzip/src/gzip-1.2.4/ ----------------------------------------------------------- COPYING ChangeLog INSTALL Makefile.in NEWS README THANKS TODO algorithm.doc amiga/ atari/ bits.c configure configure.in crypt.c crypt.h deflate.c getopt.c getopt.h gpl.texinfo gzexe.1 gzexe.in gzip.1 gzip.c gzip.doc gzip.h gzip.info gzip.texi inflate.c lzw.c lzw.h match.S msdos/ nt/ os2/ primos/ revision.h sample/ tailor.h texinfo.tex trees.c unlzh.c unlzw.c unpack.c unzip.c util.c vms/ zdiff.1 zdiff.in zforce.1 zforce.in zgrep.1 zgrep.in zip.c zmore.1 zmore.in znew.1 znew.in ----------------------------------------------------------- path: /netlib/gnu/gzip/src/gzip-1.2.4/amiga/ ----------------------------------------------------------- Makefile.gcc Makefile.sasc match.a tailor.c utime.h ----------------------------------------------------------- path: /netlib/gnu/gzip/src/gzip-1.2.4/atari/ ----------------------------------------------------------- Makefile.st ----------------------------------------------------------- path: /netlib/gnu/gzip/src/gzip-1.2.4/msdos/ ----------------------------------------------------------- Makefile.bor Makefile.djg Makefile.msc doturboc.bat gzip.prj match.asm tailor.c ----------------------------------------------------------- path: /netlib/gnu/gzip/src/gzip-1.2.4/nt/ ----------------------------------------------------------- Makefile.nt ----------------------------------------------------------- path: /netlib/gnu/gzip/src/gzip-1.2.4/os2/ ----------------------------------------------------------- Makefile.os2 gzip.def gzip16.def ----------------------------------------------------------- path: /netlib/gnu/gzip/src/gzip-1.2.4/primos/ ----------------------------------------------------------- build.cpl ci.opts include/ primos.c readme ----------------------------------------------------------- path: /netlib/gnu/gzip/src/gzip-1.2.4/primos/include/ ----------------------------------------------------------- errno.h fcntl.h stdlib.h sysStat.h sysTypes.h ----------------------------------------------------------- path: /netlib/gnu/gzip/src/gzip-1.2.4/sample/ ----------------------------------------------------------- add.c makecrc.c sub.c zfile zread.c ztouch ----------------------------------------------------------- path: /netlib/gnu/gzip/src/gzip-1.2.4/vms/ ----------------------------------------------------------- Makefile.gcc Makefile.mms Makefile.vms Readme.vms gzip.hlp makegzip.com vms.c ----------------------------------------------------------- for Golden Oldies: widely used, but not in path: /netlib/go/ ----------------------------------------------------------- .depend Makefile dependencies gaussq.f gams H2c for weights for Gaussian quadrature rules prec double sgausq.f gams H2c for weights for Gaussian quadrature rules prec single zeroin.f gams F1b for univariate zero-finding by Brent prec double seroin.f gams F1b for univariate zero-finding by Brent prec single fmin.f gams G1a1a for univariate minimization by Brent prec double sfmin.f gams G1a1a for univariate minimization by Brent prec single ibmblas gams D1a for IBM assembly language level-1 BLAS lowess.f gams L8h for smoothing scatterplots by locally weighted regression by Bill Cleveland fft.f gams J1b for complex FFT prec single by Singleton 1968 realtr.f gams J1a1 for real FFT prec single by Singleton 1968 pfort/ title PFORT Verifier gams S2 for checking adherence to the 1966 standard. size 283 kB underwood.f for sparse symmetric eigenproblems alg iterative block Lanczos by Richard Ray Underwood retyped by Cheryl M. M. Carey prec double actually REAL*8 but maybe your compiler can cope underwood-out for sample output of go/underwood.f accuracy ----------------------------------------------------------- title PFORT Verifier path: /netlib/go/pfort/ ----------------------------------------------------------- ARDECL.f ASLEV.f ASSASF.f ASSIGN.f BLOCKDATA0.f BLOCKDATA1.f BLOCKDATA2.f BLOCKDATA3.f CALLS.f CHECKS.f CHK1.f CHK2.f CHK3.f CHKALL.f COMCHK.f COMMON.f COMPAR.f COMPIL.f CONSTR.f DATA.f DIMENS.f DOCHK.f DOSPEC.f DOSTMT.f DOVAR.f END.f EQUIV.f ERROR1.f ERROR2.f EXCH.f EXPR.f EXTERN.f FIND.f FINDCM.f FINDND.f FIXLAB.f FORMAT.f GETTOK.f GOTO.f ID.f IDLIST.f IFS.f IGATT1.f IGATT2.f IN.f INOPT.f INREF.f INSTMT.f INSYM.f INTEXT.f INVOKE.f IO.f LDOVAR.f LIST.f LOOKUP.f MAIN0.f MAIN1.f MAPCHR.f MATCH.f MKCOM.f Makefile NEXTOK.f OUT2.f OUT2A.f OUT2C.f OUTCOM.f OUTLAT.f OUTSYM.f OVRLAY.f POP.f PROC.f PU.f RDLIST.f RDSYM.f RFLIST.f SATT1.f SATT2.f SCAN.f SEPAR.f SETARG.f SETASF.f SETCOM.f SETEXT.f SETNAM.f SETNOD.f SETPD.f SETREF.f SORT.f SSORT.f SUBFCN.f SUBS.f TOKCOM.f TOKLAB.f TOKLOG.f TOKLOP.f TOKPNO.f TOKRL.f TYPE.f TYPST.f TYPST2.f UNSAFE.f checkL combine lod mktst outt pack.f pfortlst pfortlstsh readme readpfort1 readpfort2 rmwar run sum0 sum2 tstpak.f tstx ttI4 ttrewind unpack.f ----------------------------------------------------------- for scientific visualization path: /netlib/graphics/ ----------------------------------------------------------- haines for database constructor programs for testing ray tracer efficiency by Eric Haines rainbow.c for equally spaced colors, primarily for level plots by Eric Grosse ref "Automatic Choice of Colors for Level Plots", AT&T Bell Labs, Murray Hill NJ 07974 hotiron.c for sample driver for rainbow, also defining "hot iron" and "zebra" by Eric Grosse tk_colorscale.c for another sample driver, useful with Tcl/Tk by Eric Grosse cie.c for CIE 1931 colour matching functions by Tom Duff conic by J. Hu & T. Pavlidis ref "Function Plotting using Conic Splines," IEEE CGNA, January 1991. for adaptive fitting of a function using relatively few conic segments xfarbe/ for area filled, labelled contour plot of grid data for X displays and PostScript by A. Preusser alg Akima bicubic size 336 kB video.signals for notes on video signal formats by Tom Duff # See also: # ImageMagick by John Cristy # ftp://ftp.x.org/contrib/ImageMagick.tar.Z # the NCSA Scientific Visualization Software Suite # ftp://ftp.ncsa.uiuc.edu/ ----------------------------------------------------------- for area filled, labelled contour plot of grid data path: /netlib/graphics/xfarbe/ ----------------------------------------------------------- xfarbe-2.1/ ----------------------------------------------------------- path: /netlib/graphics/xfarbe/xfarbe-2.1/ ----------------------------------------------------------- Copyright Imakefile README XFarbe arrya.dat bormet.dat example.ps farbe2d.c gie2.dat gray64.pal help.tcl itplbv.c makefile.alt mm.c muk2.dat mukher.dat pal.pro post.c resources.h rhod3.dat rhod8.dat test.dat wilke.dat wilke.sym xf_prof.pro xfarbe.FAQ xfarbe.batch xfarbe.c xfarbe.dat xfarbe.doc xfarbe.help xfarbe.pal xfarbe.ps xfarbe.sym ----------------------------------------------------------- for sparse unsymmetric matrix routine MA28 from the path: /netlib/harwell/ ----------------------------------------------------------- .depend bug.ma28.netlib common.f dependencies disclaimer error ma28dd.f ma30dd.f makefile mc13d.f mc13e.f mc20ad.f mc20bd.f mc21a.f mc21b.f mc22ad.f mc23ad.f mc24ad.f readme for overview of harwell ma28ad.f for LU factorization, general sparse matrix, pivoting for sparsity and stability, may be unsymmetric gams d2a4 ma28id.f for LU factors from (harwell/ma28ad or ma28bd), solves linear equations by iterative refinement gams d2a4 ma28cd.f for solves linear equations using LU factors computed from (harwell/ma28ad) or (harwell/ma2bbd) gams d2a4 ma28bd.f for LU factorization, general sparse matrix, previously factored by (harwell/ma28d) but with numerical different values gams d2a4 ma30ad.f for Performs an LU factorization of a general sparse unsymmetric matrix, with pivoting for sparsity and stability. (For an easy-to-use driver for this subroutine, see Harwell subroutine MA28AD). gams d2a4 ma30bd.f for Performs an LU factorization of a general sparse unsymmetric matrix with a similar sparsity pattern to a matrix previously factored by subroutine MA30AD. (For an easy-to-use driver for this subroutine, see Harwell subroutine MA28BD). gams d2a4 ma30cd.f for Solves a system of linear equations (without iterative refinement), using LU factors from MA30AD or MA30BD. (For an easy-to-use driver for this subroutine, see Harwell subroutine MA28CD). gams d2a4 blkdta000.f for BLOCK DATA subprogram to initialize data in COMMON blocks ma28ed, ma28fd, ma28gd, ma28hd. Needs to be linked with routines using these COMMON blocks. blkdta001.f for BLOCK DATA subprogram to initialize data in COMMON blocks ma30ed, ma30gd, ma30id. Needs to be linked with routines using these COMMON blocks. blkdta002.f for BLOCK DATA subprogram to initialize data in COMMON block mc23bd. Needs to be linked with routines using this COMMON block. ----------------------------------------------------------- for Heterogenous Network Computing Environment path: /netlib/hence/ ----------------------------------------------------------- hence-2.0-patch1 readme for Overview of HeNCE see hence-2.0-doc.ps.Z.uu hence-2.0-examples/ for Example programs for HeNCE 2.0. lang HeNCE age experimental HeNCE-2.0-full.RS6K/ for Complete HeNCE environment compiled for RS6K, AIX 3.2.5 size 1.9 MB age experimental HeNCE-2.0-full.SUN4/ for Complete HeNCE environment compiled for SUN4, SunOS 4.1.3 size 1.2 MB age experimental HeNCE-2.0-rtl.RS6K/ for HeNCE runtime support libraries compiled for RS6K, AIX 3.2.5 size 332 KB age experimental HeNCE-2.0-rtl.SUN4/ for HeNCE runtime support libraries compiled for SUN4, SunOS 4.1.3 size 282 KB age experimental HeNCE-2.0-src/ for Complete source code to HeNCE environment size 654 KB age experimental HeNCE-2.0-doc.ps title HeNCE 2.0 User Manual and Installation Guide size 242 KB lang PostScript keywords visual,parallel,computation,graph,PVM,Heterog eneous old-hence/ for Out-of-date versions of the HeNCE visual parallel programming environment age old hence-2.0-doc-html/ title HeNCE 2.0 User Manual and Installation Guide lang HTML ----------------------------------------------------------- for Complete HeNCE environment compiled for RS6K, path: /netlib/hence/HeNCE-2.0-full.RS6K/ ----------------------------------------------------------- pvm3/ ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-full.RS6K/pvm3/ ----------------------------------------------------------- bin/ include/ lib/ ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-full.RS6K/pvm3/bin/ ----------------------------------------------------------- RS6K/ ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-full.RS6K/pvm3/bin/RS6K/ ----------------------------------------------------------- htool master proxyd ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-full.RS6K/pvm3/include/ ----------------------------------------------------------- dlist.h hence.h htypes.h imalloc.h list.h rb.h std.h ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-full.RS6K/pvm3/lib/ ----------------------------------------------------------- RS6K/ ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-full.RS6K/pvm3/lib/RS6K/ ----------------------------------------------------------- liballoc.a libdl.a libhence3.a librb.a libslave3.a ----------------------------------------------------------- for Complete HeNCE environment compiled for SUN4, path: /netlib/hence/HeNCE-2.0-full.SUN4/ ----------------------------------------------------------- pvm3/ ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-full.SUN4/pvm3/ ----------------------------------------------------------- bin/ include/ lib/ ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-full.SUN4/pvm3/bin/ ----------------------------------------------------------- SUN4/ ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-full.SUN4/pvm3/bin/SUN4/ ----------------------------------------------------------- htool master proxyd ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-full.SUN4/pvm3/include/ ----------------------------------------------------------- dlist.h hence.h htypes.h imalloc.h list.h rb.h std.h ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-full.SUN4/pvm3/lib/ ----------------------------------------------------------- SUN4/ ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-full.SUN4/pvm3/lib/SUN4/ ----------------------------------------------------------- liballoc.a libdl.a libhence3.a librb.a libslave3.a ----------------------------------------------------------- for HeNCE runtime support libraries compiled for path: /netlib/hence/HeNCE-2.0-rtl.RS6K/ ----------------------------------------------------------- pvm3/ ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-rtl.RS6K/pvm3/ ----------------------------------------------------------- bin/ include/ lib/ ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-rtl.RS6K/pvm3/bin/ ----------------------------------------------------------- RS6K/ ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-rtl.RS6K/pvm3/bin/RS6K/ ----------------------------------------------------------- proxyd ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-rtl.RS6K/pvm3/include/ ----------------------------------------------------------- dlist.h hence.h htypes.h imalloc.h list.h rb.h std.h ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-rtl.RS6K/pvm3/lib/ ----------------------------------------------------------- RS6K/ ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-rtl.RS6K/pvm3/lib/RS6K/ ----------------------------------------------------------- liballoc.a libdl.a libhence3.a librb.a libslave3.a ----------------------------------------------------------- for HeNCE runtime support libraries compiled for path: /netlib/hence/HeNCE-2.0-rtl.SUN4/ ----------------------------------------------------------- pvm3/ ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-rtl.SUN4/pvm3/ ----------------------------------------------------------- bin/ include/ lib/ ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-rtl.SUN4/pvm3/bin/ ----------------------------------------------------------- SUN4/ ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-rtl.SUN4/pvm3/bin/SUN4/ ----------------------------------------------------------- proxyd ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-rtl.SUN4/pvm3/include/ ----------------------------------------------------------- dlist.h hence.h htypes.h imalloc.h list.h rb.h std.h ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-rtl.SUN4/pvm3/lib/ ----------------------------------------------------------- SUN4/ ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-rtl.SUN4/pvm3/lib/SUN4/ ----------------------------------------------------------- liballoc.a libdl.a libhence3.a librb.a libslave3.a ----------------------------------------------------------- for Complete source code to HeNCE environment path: /netlib/hence/HeNCE-2.0-src/ ----------------------------------------------------------- hence2/ ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-src/hence2/ ----------------------------------------------------------- Brain-Damage Compiling Imakefile Makefile.lib READ-ME htool/ imake.defs master/ ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-src/hence2/htool/ ----------------------------------------------------------- Bondo/ Canvas.c Canvas.h CanvasP.h ChangeLog FileSelect.c FileSelect.h FileSelectP.h Imakefile Makefile.lib Matrix.c Matrix.h MatrixP.h arches.c arches.h bitmaps/ build.c build.h build_help.c config.c config.h costmat.c costmat.h dot_htool.c dot_htool.h eaccess.c exp.c exp.h filenames.c filenames.h filever.c filever.h global.h graph.c graph.h graph_critic.c graph_critic.h graph_draw.c graph_draw.h graph_edit.c graph_edit.h graph_panel.c graph_panel.h graph_parse.h graph_parse.lex graph_parse.y graph_print.c graph_unparse.c graph_unparse.h help.c help.h help.txt histo.c histo.h info_panel.c labels.c labels.h main.c make_proxyd menu.c menu.h mode.c mode.h msg.c msg.h param.c param.h proxy.c proxy.c.old proxy.h proxyd.c psheader.ps pvm_panel.c pvmglue.c pvmglue.h rb.c rb.h regexp-glue.c regexp.c regexp.h regmagic.h subdefs.h subdefs.lex subdefs.y subproc.c subproc.h text_sink.c text_sink.h tfdump.c tfnew.h tfread.c tilde.c tilde.h trace_new.c trace_new.h version.h xgr.c xtglue.c xtglue.h ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-src/hence2/htool/Bondo/ ----------------------------------------------------------- Errno.h File.h Imakefile Malloc.h Malloc.h.OLD Select.h Signal.h Stat.h String.h Utime.h Wait.h a.out emalloc.c getpagesize.h imalloc.c setenv.c setfiletime.c strdup.c strerror.c ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-src/hence2/htool/bitmaps/ ----------------------------------------------------------- arc.xbm beginloop.xbm beginpipe.xbm beginswitch.xbm dead.xbm done.xbm down.xbm endloop.xbm endpipe.xbm endswitch.xbm error.xbm fanin.xbm fanout.xbm fwd.xbm fwdstep.xbm lines.xbm node.xbm ready.xbm rev.xbm rev.xbm.old revstep.xbm run1.xbm run2.xbm scissors.xbm stop.xbm up.xbm warn.xbm ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-src/hence2/master/ ----------------------------------------------------------- Imakefile Makefile.lib anc.c arc.c array.c check.c cost.c eval.c eval.h execute.c exp.c fslave.c grparse.l grparse.y hstrings.c include/ liballoc/ libdl/ librb/ manip.c master.c new.trace node.c param.c print.c pvmhelp.c rbhelp.c rbhelp.h req.c slave.c slave_trace.c tfwrite.c tfwrite.h trace.c type.c wrap.c yucky.h ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-src/hence2/master/include/ ----------------------------------------------------------- dlist.h hence.h htypes.h imalloc.h list.h rb.h std.h ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-src/hence2/master/liballoc/ ----------------------------------------------------------- Imakefile imalloc.c imalloc.h ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-src/hence2/master/libdl/ ----------------------------------------------------------- Imakefile Makefile.libs Makefile.vanilla dlist.c dlist.h ----------------------------------------------------------- path: /netlib/hence/HeNCE-2.0-src/hence2/master/librb/ ----------------------------------------------------------- Imakefile Makefile.libs Makefile.vanilla README list.c list.h main.c rb.c rb.h rb.sh ----------------------------------------------------------- title HeNCE 2.0 User Manual and Installation Guide path: /netlib/hence/hence-2.0-doc-html/ ----------------------------------------------------------- hence-2.0-doc.html for HeNCE User Manual and Installation Guide in HTML format (root doc). lang html keywords visual,parallel,computation,graph,PVM,Heterog eneous by hence@cs.utk.edu .names _24167_figure103.gif _24167_figure110.gif _24167_figure118.gif _24167_figure182.gif _24167_figure19.gif _24167_figure195.gif _24167_figure215.gif _24167_figure234.gif _24167_figure242.gif _24167_figure247.gif _24167_figure258.gif _24167_figure273.gif _24167_figure286.gif _24167_figure39.gif _24167_figure84.gif _24167_table202.gif _24167_table298.gif _24167_table92.gif _24167_tex2html_wrap1001.xbm _24167_tex2html_wrap1007.xbm _24167_tex2html_wrap1013.xbm _24167_tex2html_wrap1015.xbm _24167_tex2html_wrap1017.xbm _24167_tex2html_wrap1019.xbm _24167_tex2html_wrap1021.xbm _24167_tex2html_wrap1023.xbm _24167_tex2html_wrap1025.xbm _24167_tex2html_wrap1037.xbm _24167_tex2html_wrap1041.xbm _24167_tex2html_wrap1053.xbm _24167_tex2html_wrap899.xbm _24167_tex2html_wrap903.xbm _24167_tex2html_wrap927.xbm _24167_tex2html_wrap929.xbm _24167_tex2html_wrap931.xbm _24167_tex2html_wrap933.xbm _24167_tex2html_wrap939.xbm _24167_tex2html_wrap943.xbm _24167_tex2html_wrap945.xbm _24167_tex2html_wrap947.xbm _24167_tex2html_wrap951.xbm _24167_tex2html_wrap955.xbm _24167_tex2html_wrap959.xbm _24167_tex2html_wrap961.xbm _24167_tex2html_wrap963.xbm _24167_tex2html_wrap965.xbm _24167_tex2html_wrap967.xbm _24167_tex2html_wrap969.xbm _24167_tex2html_wrap971.xbm _24167_tex2html_wrap973.xbm _24167_tex2html_wrap975.xbm _24167_tex2html_wrap979.xbm _24167_tex2html_wrap991.xbm _24167_tex2html_wrap995.xbm _24167_tex2html_wrap997.xbm _24167_tex2html_wrap999.xbm bibliography3_17.html hence-2.0-doc.html section3_1.html section3_10.html section3_11.html section3_12.html section3_13.html section3_14.html section3_15.html section3_16.html section3_18.html section3_2.html section3_3.html section3_4.html section3_5.html section3_6.html section3_7.html section3_8.html section3_9.html subsection3_11_1.html subsection3_11_2.html subsection3_13_1.html subsection3_13_2.html subsection3_3_1.html subsection3_3_2.html subsection3_4_2.html subsection3_4_3.html subsection3_4_4.html subsection3_5_1.html subsection3_6_1.html subsection3_6_2.html subsection3_6_3.html subsection3_6_4.html subsection3_7_1.html subsection3_7_2.html subsection3_7_3.html ----------------------------------------------------------- for Example programs for HeNCE 2.0. path: /netlib/hence/hence-2.0-examples/ ----------------------------------------------------------- README bts_hence/ cannon/ christmas/ dprod/ fortran/ lu/ mandlebrot/ phys/ static_integ/ test/ ----------------------------------------------------------- path: /netlib/hence/hence-2.0-examples/bts_hence/ ----------------------------------------------------------- GetSys.c PrintAns.c README blkmult.c bts.gr solve.c ----------------------------------------------------------- path: /netlib/hence/hence-2.0-examples/cannon/ ----------------------------------------------------------- README cannon.c cw_initarray.c cw_null.c initmatrix.c mm.gr mmu.c moveblocks.c multi_add.c multiply.c printmatrix.c shiftblocks.c showmatrices.c swapmatrix.c ----------------------------------------------------------- path: /netlib/hence/hence-2.0-examples/christmas/ ----------------------------------------------------------- README add.c christmas.gr mult.c null.c pall.c ----------------------------------------------------------- path: /netlib/hence/hence-2.0-examples/dprod/ ----------------------------------------------------------- README dprod-cheat.gr dprod.c init.c output.c ----------------------------------------------------------- path: /netlib/hence/hence-2.0-examples/fortran/ ----------------------------------------------------------- README dp.gr dprod.f init.f output.f printarray.f ----------------------------------------------------------- path: /netlib/hence/hence-2.0-examples/lu/ ----------------------------------------------------------- README cw_null.c initarray.c lu.gr ludecomp.c output.c pivot.c printresult.c printvector.c solve.c trisolve.c update2.c verify.c ----------------------------------------------------------- path: /netlib/hence/hence-2.0-examples/mandlebrot/ ----------------------------------------------------------- README demo0/ demo1/ demo2/ demo3/ ----------------------------------------------------------- path: /netlib/hence/hence-2.0-examples/mandlebrot/demo0/ ----------------------------------------------------------- README collect.c demo0.gr start.c tile.c xpx.c ----------------------------------------------------------- path: /netlib/hence/hence-2.0-examples/mandlebrot/demo1/ ----------------------------------------------------------- Makefile README collect.c demo1.gr foo.bat start.c tile.c ----------------------------------------------------------- path: /netlib/hence/hence-2.0-examples/mandlebrot/demo2/ ----------------------------------------------------------- Makefile README collect.c demo2.gr fw_collect.c fw_start.c fw_tile.c hence.gr mail oldcw_collect.c oldcw_start.c oldcw_tile.c start.c tile.c ----------------------------------------------------------- path: /netlib/hence/hence-2.0-examples/mandlebrot/demo3/ ----------------------------------------------------------- Makefile README collect.c demo3.gr hence.gr start.c tile.c ----------------------------------------------------------- path: /netlib/hence/hence-2.0-examples/phys/ ----------------------------------------------------------- README data engLost.c fan.c fel.gr hdata init.c init1.c nlin.c nonlin.c oldout.c output.c ----------------------------------------------------------- path: /netlib/hence/hence-2.0-examples/static_integ/ ----------------------------------------------------------- PrintAns.c README SetInputs.c simp.c static_integ.gr ----------------------------------------------------------- path: /netlib/hence/hence-2.0-examples/test/ ----------------------------------------------------------- README bar.c foo.c hence.gr mumble.c ----------------------------------------------------------- for Out-of-date versions of the HeNCE visual path: /netlib/hence/old-hence/ ----------------------------------------------------------- .names hence.ps hence/ hence1.2/ readme for overview of hence hence1.4/ for HeNCE source code (supports either pvm2.4.2 or pvm3.x) size 1.8 megabytes hence-1.4-changes for changes from version 1.3 to 1.4 of HeNCE read-me.pvm3 for notes on HeNCE 1.4 support for pvm3 hence1.3/ for HeNCE source code size 1.8 megabytes 1.3-to-1.3.1.patch for patches to allow HeNCE 1.3 to compile/run on SGIs & PMAX w/Ultrix 4.3 hence-1.3-changes for changes from version 1.2 to 1.3 of HeNCE faq for answers to frequently asked questions about HeNCE buglist for known bugs in the current release of the HeNCE # Please check here before reporting a bug. When reporting a bug give explicit steps which will reproduce the bug. Also include o the machine type you are running on (vendor, model), o the operating system version (ie ULTRIX V4.1), o the Version of X windows (R4, R5, IBM's...), and o the window manager you're using porting-status for list of machines HeNCE 1.4 runs on (last update: May 16 1993) hug.ps for The HeNCE User's Guide lang PostScript form size 540 kilobytes # This version of the HeNCE User's Guide has been reformatted to make it easier to print on postscript printers with limited memory. hug/ for source code for HeNCE User's Guide lang LaTeX (and PostScript figures) sc91.ps for paper from Supercomputing 91 describing HeNCE lang PostScript size 756 kilobytes sc91/ size 107 kilobytes short.ps for short description of HeNCE lang PostScript ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/ ----------------------------------------------------------- AIXbuild.sh Compiling FAQ HeNCE-1.3-Changes HeNCE-1.4-Changes Imakefile READ-ME READ-ME.AIX READ-ME.PVM3 READ-ME.SunOS STATUS demos/ htool/ icons/ imake.defs master/ mkwrap/ pvmrsh/ ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/demos/ ----------------------------------------------------------- cannon/ demo0/ demo1/ demo2/ demo3/ demo4/ demo5/ demo6/ fortran/ lu/ phys/ ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/demos/cannon/ ----------------------------------------------------------- README cannon.c hence.gr hence.trace initmatrix.c mm.gr mmu.c moveblocks.c multi_add.c multiply.c printmatrix.c shiftblocks.c showmatrices.c swapmatrix.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/demos/demo0/ ----------------------------------------------------------- README collect.c demo0.gr hence.gr hence.trace start.c sub.defs tile.c xpx.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/demos/demo1/ ----------------------------------------------------------- README collect.c demo1.gr foo.bat hence.gr hence.trace start.c sub.defs tile.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/demos/demo2/ ----------------------------------------------------------- README collect.c demo2.gr demo2.trace hence.gr hence.trace start.c sub.defs tile.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/demos/demo3/ ----------------------------------------------------------- README collect.c demo3.gr demo3.trace hence.gr hence.trace start.c sub.defs tile.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/demos/demo4/ ----------------------------------------------------------- README add.c demo4.gr hence.gr hence.trace mult.c null.c pall.c sub.defs ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/demos/demo5/ ----------------------------------------------------------- README bar.c demo5.gr foo.c hence.gr hence.trace mumble.c sub.defs ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/demos/demo6/ ----------------------------------------------------------- Makefile.old README dpro4d.gr dprod.c dprod.gr hence.gr hence.trace init.c output.c pvm_hosts sub.defs ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/demos/fortran/ ----------------------------------------------------------- README dp.gr dprod.f hence.gr hence.trace init.f output.f printarray.f ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/demos/lu/ ----------------------------------------------------------- README hence.gr hence.trace initarray.c lu.gr lu1.gr ludecomp.c output.c pivot.c printresult.c printvector.c solve.c sub.defs trace.file trisolve.c update2.c verify.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/demos/phys/ ----------------------------------------------------------- README data engLost.c fan.c fel.gr hdata hence.gr hence.trace init.c init1.c nlin.c nonlin.c oldout.c output.c parameters.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/htool/ ----------------------------------------------------------- ChangeLog FileSelect.c FileSelect.h FileSelectP.h Hgw/ Imakefile Makefile.vanilla build.c checkinstall.c comn.h compose-help.tr compose.c compose.c.orig config.c costmat.c costmat.h critic.c eaccess.c execute.c exp.c exp.h expP.h filever.c filter.c funcdefs.h funcdefs.lex funcdefs.y graph.c graph.h graphP.h histo.c histo.c.old histo.h hostmap.c hostmap.h icon.h misc.c misc.h msg.c msg.h param.c param.h parse.h parse.lex parse.y parseP.h patchlevel.h psgraph.c psheader.ps pvmglue.c pvmglue.h rb/ regexp.c regexp.h regmagic.h subdefs.c subproc.c subproc.h symtab.c symtab.h testgraph.c tf.c tf.h tilde.c tilde.h trace.c trace.c.old trace.h unparse.c unparse.h util.c util.c.foo widgen.c widmain.c xbm/ xcomn.h xdraw.c xdraw.h xgraph.c xgraph.h xincl.h xsetup.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/htool/Hgw/ ----------------------------------------------------------- Imakefile Makefile.vanilla Matrix.c Matrix.h MatrixP.h mwt.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/htool/rb/ ----------------------------------------------------------- Imakefile README main.c rb.c rb.h rbP.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/htool/xbm/ ----------------------------------------------------------- bl_ic bp_ic bpoint.xbm bs_ic compose_help down.xbm el_ic ep_ic es_ic everywhere.xbm fi_ic fo_ic fwd.xbm fwdstep.xbm genhost.xbm here.xbm hostmap.xbm legend.xbm load.xbm monitor.xbm no_dead_ic no_done_ic no_error_ic no_ic no_ready_ic no_run1_ic no_run2_ic no_run_ic no_warn_ic quit.xbm rev.xbm revstep.xbm rewind.xbm stop.xbm up.xbm usage.xbm ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/icons/ ----------------------------------------------------------- alliant.xbm alpha.xbm banana6000.xbm chili.xbm cow.xbm crayicon.xbm dec5200.xbm fred_flintstone.xbm hal.xbm intelicon.xbm robot.xbm roo.xbm rs6000.orig.xbm rs6000.xbm sequent.xbm sparcserver.xbm sun.xbm sunrack.xbm symmetry.xbm tmc.xbm ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/master/ ----------------------------------------------------------- ChangeLog Imakefile Makefile.libs Makefile.vanilla README Roadmap anc.c arc.c archtype array.c check.c cost.c eval.c eval.h examples/ execute.c exp.c fslave.c grparse.inc grparse.l grparse.y hstrings.c include/ liballoc/ libdl/ librb/ makepvmdep maketmplt manip.c master.c node.c param.c patchlevel.h print.c pvmhelp.c rbhelp.c rbhelp.h req.c slave.c test trace.c trace.doc type.c wrap.c yucky.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/master/examples/ ----------------------------------------------------------- Makefile.orig Makefile.vanilla add.c bs.gr cost.mat duh.c duh.def hosts mult.c null.c pall.c pvm_hosts sub.defs test.gr transpose.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/master/include/ ----------------------------------------------------------- dlist.h hence.h htypes.h imalloc.h list.h rb.h std.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/master/liballoc/ ----------------------------------------------------------- Imakefile Makefile.libs Makefile.vanilla imalloc.c imalloc.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/master/libdl/ ----------------------------------------------------------- Imakefile Makefile.libs Makefile.vanilla dlist.c dlist.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/master/librb/ ----------------------------------------------------------- Imakefile Makefile.libs Makefile.vanilla README list.c list.h main.c rb.c rb.h rb.sh ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/mkwrap/ ----------------------------------------------------------- Imakefile Makefile.vanilla dlist.h fmain.f hstrings.c std.h sub.defs test wrap.l wrap.y ----------------------------------------------------------- path: /netlib/hence/old-hence/hence/pvmrsh/ ----------------------------------------------------------- Imakefile Makefile.vanilla client_io.c cmd.h hosts pvm_fput.c pvmrsh.c pvmrshd.c xmake ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/ ----------------------------------------------------------- Compiling Imakefile READ-ME demo0/ demo1/ demo2/ demo3/ demo4/ demo5/ demo6/ htool/ icons/ imake.defs master/ mkwrap/ ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/demo0/ ----------------------------------------------------------- README collect.c demo0.gr start.c sub.defs tile.c xpx.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/demo1/ ----------------------------------------------------------- README collect.c demo1.gr start.c sub.defs tile.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/demo2/ ----------------------------------------------------------- README collect.c demo2.gr start.c sub.defs tile.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/demo3/ ----------------------------------------------------------- README collect.c demo3.gr start.c sub.defs tile.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/demo4/ ----------------------------------------------------------- README add.c demo4.gr mult.c null.c pall.c sub.defs ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/demo5/ ----------------------------------------------------------- README bar.c demo5.gr foo.c hence.gr mumble.c sub.defs ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/demo6/ ----------------------------------------------------------- Makefile.old README austin.mat dpro4d.gr dprod.c dprod.gr elvis.mat hence.gr hence.trace init.c la.mat ornl.mat output.c pvm_hosts sub.defs ta.mat thud.mat ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/htool/ ----------------------------------------------------------- ChangeLog FileSelect.c FileSelect.h FileSelectP.h Hgw/ Imakefile Makefile.vanilla build.c comn.h compose-help compose-help.tr compose.c compose.c.orig config.c costmat.c costmat.h critic.c eaccess.c execute.c exp.c exp.h expP.h filever.c filter.c funcdefs.h funcdefs.lex funcdefs.y graph.c graph.h graphP.h hostmap.c hostmap.h icon.h misc.c misc.h msg.c msg.h param.c param.h parse.h parse.lex parse.y parseP.h patchlevel.h psgraph.c psheader.ps pvmglue.c pvmglue.h rb/ regexp.c regexp.h regmagic.h subdefs.c subproc.c subproc.h symtab.c symtab.h testgraph.c tf.c tf.h tilde.c tilde.h trace.c trace.h unparse.c unparse.h util.c widgen.c widmain.c xbm/ xcomn.h xdraw.c xdraw.h xgraph.c xgraph.h xincl.h xsetup.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/htool/Hgw/ ----------------------------------------------------------- Imakefile Makefile.vanilla Matrix.c Matrix.h MatrixP.h mwt.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/htool/rb/ ----------------------------------------------------------- Imakefile README main.c rb.c rb.h rbP.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/htool/xbm/ ----------------------------------------------------------- bl_ic bp_ic bpoint.xbm bs_ic compose_help el_ic ep_ic es_ic fi_ic fo_ic fwd.xbm fwdstep.xbm genhost.xbm hostmap.xbm legend.xbm load.xbm monitor.xbm no_dead_ic no_done_ic no_error_ic no_ic no_ready_ic no_run1_ic no_run2_ic no_run_ic no_warn_ic quit.xbm rev.xbm revstep.xbm rewind.xbm stop.xbm usage.xbm ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/icons/ ----------------------------------------------------------- alliant.xbm banana6000.xbm chili.xbm cow.xbm crayicon.xbm dec5200.xbm fred_flintstone.xbm hal.xbm intelicon.xbm robot.xbm roo.xbm rs6000.orig.xbm rs6000.xbm sequent.xbm sparcserver.xbm sun.xbm sunrack.xbm symmetry.xbm tmc.xbm ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/master/ ----------------------------------------------------------- ChangeLog Imakefile Makefile.libs Makefile.vanilla README Roadmap anc.c arc.c archtype array.c check.c cost.c eval.c eval.h examples/ execute.c exp.c fslave.c grparse.inc grparse.l grparse.y hstrings.c include/ liballoc/ libdl/ librb/ makepvmdep maketmplt manip.c master.c node.c param.c patchlevel.h print.c pvmhelp.c rbhelp.c rbhelp.h req.c slave.c test trace.c type.c wrap.c yucky.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/master/examples/ ----------------------------------------------------------- Makefile.orig Makefile.vanilla add.c bs.gr cost.mat duh.c duh.def hosts mult.c null.c pall.c pvm_hosts sub.defs test.gr transpose.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/master/include/ ----------------------------------------------------------- dlist.h hence.h htypes.h imalloc.h list.h rb.h std.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/master/liballoc/ ----------------------------------------------------------- Imakefile Makefile.libs Makefile.vanilla imalloc.c imalloc.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/master/libdl/ ----------------------------------------------------------- Imakefile Makefile.libs Makefile.vanilla dlist.c dlist.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/master/librb/ ----------------------------------------------------------- Imakefile Makefile.libs Makefile.vanilla README list.c list.h main.c rb.c rb.h rb.sh ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.2/mkwrap/ ----------------------------------------------------------- Imakefile Makefile.vanilla dlist.h fmain.f hstrings.c std.h sub.defs test wrap.l wrap.y ----------------------------------------------------------- for HeNCE source code path: /netlib/hence/old-hence/hence1.3/ ----------------------------------------------------------- AIXbuild.sh Compiling FAQ HeNCE-1.3-Changes Imakefile READ-ME READ-ME.AIX READ-ME.SunOS STATUS demos/ htool/ icons/ imake.defs master/ mkwrap/ pvmrsh/ ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/demos/ ----------------------------------------------------------- cannon/ demo0/ demo1/ demo2/ demo3/ demo4/ demo5/ demo6/ fortran/ lu/ phys/ ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/demos/cannon/ ----------------------------------------------------------- README cannon.c hence.gr hence.trace initmatrix.c mm.gr mmu.c moveblocks.c multi_add.c multiply.c printmatrix.c shiftblocks.c showmatrices.c swapmatrix.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/demos/demo0/ ----------------------------------------------------------- README collect.c demo0.gr hence.gr hence.trace start.c sub.defs tile.c xpx.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/demos/demo1/ ----------------------------------------------------------- README collect.c demo1.gr foo.bat hence.gr hence.trace start.c sub.defs tile.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/demos/demo2/ ----------------------------------------------------------- README collect.c demo2.gr demo2.trace hence.gr hence.trace start.c sub.defs tile.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/demos/demo3/ ----------------------------------------------------------- README collect.c demo3.gr demo3.trace hence.gr hence.trace start.c sub.defs tile.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/demos/demo4/ ----------------------------------------------------------- README add.c demo4.gr hence.gr hence.trace mult.c null.c pall.c sub.defs ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/demos/demo5/ ----------------------------------------------------------- README bar.c demo5.gr foo.c hence.gr hence.trace mumble.c sub.defs ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/demos/demo6/ ----------------------------------------------------------- Makefile.old README dpro4d.gr dprod.c dprod.gr hence.gr hence.trace init.c output.c pvm_hosts sub.defs ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/demos/fortran/ ----------------------------------------------------------- README dp.gr dprod.f hence.gr hence.trace init.f output.f printarray.f ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/demos/lu/ ----------------------------------------------------------- README hence.gr hence.trace initarray.c lu.gr lu1.gr ludecomp.c output.c pivot.c printresult.c printvector.c solve.c sub.defs trace.file trisolve.c update2.c verify.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/demos/phys/ ----------------------------------------------------------- README data engLost.c fan.c fel.gr hdata hence.gr hence.trace init.c init1.c nlin.c nonlin.c oldout.c output.c parameters.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/htool/ ----------------------------------------------------------- ChangeLog FileSelect.c FileSelect.h FileSelectP.h Hgw/ Imakefile Makefile.vanilla build.c comn.h compose-help.tr compose.c compose.c.orig config.c costmat.c costmat.h critic.c eaccess.c execute.c exp.c exp.h expP.h filever.c filter.c funcdefs.h funcdefs.lex funcdefs.y graph.c graph.h graphP.h histo.c histo.c.old histo.h hostmap.c hostmap.h icon.h misc.c misc.h msg.c msg.h param.c param.h parse.h parse.lex parse.y parseP.h patchlevel.h psgraph.c psheader.ps pvmglue.c pvmglue.h rb/ regexp.c regexp.h regmagic.h subdefs.c subproc.c subproc.h symtab.c symtab.h testgraph.c tf.c tf.h tilde.c tilde.h trace.c trace.c.old trace.h unparse.c unparse.h util.c util.c.foo widgen.c widmain.c xbm/ xcomn.h xdraw.c xdraw.h xgraph.c xgraph.h xincl.h xsetup.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/htool/Hgw/ ----------------------------------------------------------- Imakefile Makefile.vanilla Matrix.c Matrix.h MatrixP.h mwt.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/htool/rb/ ----------------------------------------------------------- Imakefile README main.c rb.c rb.h rbP.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/htool/xbm/ ----------------------------------------------------------- bl_ic bp_ic bpoint.xbm bs_ic compose_help down.xbm el_ic ep_ic es_ic everywhere.xbm fi_ic fo_ic fwd.xbm fwdstep.xbm genhost.xbm here.xbm hostmap.xbm legend.xbm load.xbm monitor.xbm no_dead_ic no_done_ic no_error_ic no_ic no_ready_ic no_run1_ic no_run2_ic no_run_ic no_warn_ic quit.xbm rev.xbm revstep.xbm rewind.xbm stop.xbm up.xbm usage.xbm ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/icons/ ----------------------------------------------------------- alliant.xbm banana6000.xbm chili.xbm cow.xbm crayicon.xbm dec5200.xbm fred_flintstone.xbm hal.xbm intelicon.xbm robot.xbm roo.xbm rs6000.orig.xbm rs6000.xbm sequent.xbm sparcserver.xbm sun.xbm sunrack.xbm symmetry.xbm tmc.xbm ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/master/ ----------------------------------------------------------- ChangeLog Imakefile Makefile.libs Makefile.vanilla README Roadmap anc.c arc.c archtype array.c check.c cost.c eval.c eval.h examples/ execute.c exp.c fslave.c grparse.inc grparse.l grparse.y hstrings.c include/ liballoc/ libdl/ librb/ makepvmdep maketmplt manip.c master.c node.c param.c patchlevel.h print.c pvmhelp.c rbhelp.c rbhelp.h req.c slave.c test trace.c trace.doc type.c wrap.c yucky.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/master/examples/ ----------------------------------------------------------- Makefile.orig Makefile.vanilla add.c bs.gr cost.mat duh.c duh.def hosts mult.c null.c pall.c pvm_hosts sub.defs test.gr transpose.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/master/include/ ----------------------------------------------------------- dlist.h hence.h htypes.h imalloc.h list.h rb.h std.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/master/liballoc/ ----------------------------------------------------------- Imakefile Makefile.libs Makefile.vanilla imalloc.c imalloc.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/master/libdl/ ----------------------------------------------------------- Imakefile Makefile.libs Makefile.vanilla dlist.c dlist.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/master/librb/ ----------------------------------------------------------- Imakefile Makefile.libs Makefile.vanilla README list.c list.h main.c rb.c rb.h rb.sh ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/mkwrap/ ----------------------------------------------------------- Imakefile Makefile.vanilla dlist.h fmain.f hstrings.c std.h sub.defs test wrap.l wrap.y ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.3/pvmrsh/ ----------------------------------------------------------- Imakefile Makefile.vanilla client_io.c cmd.h hosts pvm_fput.c pvmrsh.c pvmrshd.c xmake ----------------------------------------------------------- for HeNCE source code (supports either pvm2.4.2 or path: /netlib/hence/old-hence/hence1.4/ ----------------------------------------------------------- AIXbuild.sh Compiling FAQ HeNCE-1.3-Changes HeNCE-1.4-Changes Imakefile READ-ME READ-ME.AIX READ-ME.PVM3 READ-ME.SunOS STATUS demos/ htool/ icons/ imake.defs master/ mkwrap/ pvmrsh/ ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/demos/ ----------------------------------------------------------- cannon/ demo0/ demo1/ demo2/ demo3/ demo4/ demo5/ demo6/ fortran/ lu/ phys/ ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/demos/cannon/ ----------------------------------------------------------- README cannon.c hence.gr hence.trace initmatrix.c mm.gr mmu.c moveblocks.c multi_add.c multiply.c printmatrix.c shiftblocks.c showmatrices.c swapmatrix.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/demos/demo0/ ----------------------------------------------------------- README collect.c demo0.gr hence.gr hence.trace start.c sub.defs tile.c xpx.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/demos/demo1/ ----------------------------------------------------------- README collect.c demo1.gr foo.bat hence.gr hence.trace start.c sub.defs tile.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/demos/demo2/ ----------------------------------------------------------- README collect.c demo2.gr demo2.trace hence.gr hence.trace start.c sub.defs tile.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/demos/demo3/ ----------------------------------------------------------- README collect.c demo3.gr demo3.trace hence.gr hence.trace start.c sub.defs tile.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/demos/demo4/ ----------------------------------------------------------- README add.c demo4.gr hence.gr hence.trace mult.c null.c pall.c sub.defs ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/demos/demo5/ ----------------------------------------------------------- README bar.c demo5.gr foo.c hence.gr hence.trace mumble.c sub.defs ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/demos/demo6/ ----------------------------------------------------------- Makefile.old README dpro4d.gr dprod.c dprod.gr hence.gr hence.trace init.c output.c pvm_hosts sub.defs ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/demos/fortran/ ----------------------------------------------------------- README dp.gr dprod.f hence.gr hence.trace init.f output.f printarray.f ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/demos/lu/ ----------------------------------------------------------- README hence.gr hence.trace initarray.c lu.gr lu1.gr ludecomp.c output.c pivot.c printresult.c printvector.c solve.c sub.defs trace.file trisolve.c update2.c verify.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/demos/phys/ ----------------------------------------------------------- README data engLost.c fan.c fel.gr hdata hence.gr hence.trace init.c init1.c nlin.c nonlin.c oldout.c output.c parameters.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/htool/ ----------------------------------------------------------- ChangeLog FileSelect.c FileSelect.h FileSelectP.h Hgw/ Imakefile Makefile.vanilla build.c checkinstall.c comn.h compose-help.tr compose.c compose.c.orig config.c costmat.c costmat.h critic.c eaccess.c execute.c exp.c exp.h expP.h filever.c filter.c funcdefs.h funcdefs.lex funcdefs.y graph.c graph.h graphP.h histo.c histo.c.old histo.h hostmap.c hostmap.h icon.h misc.c misc.h msg.c msg.h param.c param.h parse.h parse.lex parse.y parseP.h patchlevel.h psgraph.c psheader.ps pvmglue.c pvmglue.h rb/ regexp.c regexp.h regmagic.h subdefs.c subproc.c subproc.h symtab.c symtab.h testgraph.c tf.c tf.h tilde.c tilde.h trace.c trace.c.old trace.h unparse.c unparse.h util.c util.c.foo widgen.c widmain.c xbm/ xcomn.h xdraw.c xdraw.h xgraph.c xgraph.h xincl.h xsetup.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/htool/Hgw/ ----------------------------------------------------------- Imakefile Makefile.vanilla Matrix.c Matrix.h MatrixP.h mwt.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/htool/rb/ ----------------------------------------------------------- Imakefile README main.c rb.c rb.h rbP.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/htool/xbm/ ----------------------------------------------------------- bl_ic bp_ic bpoint.xbm bs_ic compose_help down.xbm el_ic ep_ic es_ic everywhere.xbm fi_ic fo_ic fwd.xbm fwdstep.xbm genhost.xbm here.xbm hostmap.xbm legend.xbm load.xbm monitor.xbm no_dead_ic no_done_ic no_error_ic no_ic no_ready_ic no_run1_ic no_run2_ic no_run_ic no_warn_ic quit.xbm rev.xbm revstep.xbm rewind.xbm stop.xbm up.xbm usage.xbm ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/icons/ ----------------------------------------------------------- alliant.xbm alpha.xbm banana6000.xbm chili.xbm cow.xbm crayicon.xbm dec5200.xbm fred_flintstone.xbm hal.xbm intelicon.xbm robot.xbm roo.xbm rs6000.orig.xbm rs6000.xbm sequent.xbm sparcserver.xbm sun.xbm sunrack.xbm symmetry.xbm tmc.xbm ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/master/ ----------------------------------------------------------- ChangeLog Imakefile Makefile.libs Makefile.vanilla README Roadmap anc.c arc.c archtype array.c check.c cost.c eval.c eval.h examples/ execute.c exp.c fslave.c grparse.inc grparse.l grparse.y hstrings.c include/ liballoc/ libdl/ librb/ makepvmdep maketmplt manip.c master.c node.c param.c patchlevel.h print.c pvmhelp.c rbhelp.c rbhelp.h req.c slave.c test trace.c trace.doc type.c wrap.c yucky.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/master/examples/ ----------------------------------------------------------- Makefile.orig Makefile.vanilla add.c bs.gr cost.mat duh.c duh.def hosts mult.c null.c pall.c pvm_hosts sub.defs test.gr transpose.c ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/master/include/ ----------------------------------------------------------- dlist.h hence.h htypes.h imalloc.h list.h rb.h std.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/master/liballoc/ ----------------------------------------------------------- Imakefile Makefile.libs Makefile.vanilla imalloc.c imalloc.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/master/libdl/ ----------------------------------------------------------- Imakefile Makefile.libs Makefile.vanilla dlist.c dlist.h ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/master/librb/ ----------------------------------------------------------- Imakefile Makefile.libs Makefile.vanilla README list.c list.h main.c rb.c rb.h rb.sh ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/mkwrap/ ----------------------------------------------------------- Imakefile Makefile.vanilla dlist.h fmain.f hstrings.c std.h sub.defs test wrap.l wrap.y ----------------------------------------------------------- path: /netlib/hence/old-hence/hence1.4/pvmrsh/ ----------------------------------------------------------- Imakefile Makefile.vanilla client_io.c cmd.h hosts pvm_fput.c pvmrsh.c pvmrshd.c xmake ----------------------------------------------------------- for source code for HeNCE User's Guide path: /netlib/hence/old-hence/hug/ ----------------------------------------------------------- cond.eps dprod.eps fan.eps htcompbw.eps htdpbuildbw.eps htdpcostbw.eps htdppvmbw.eps htdptracebw.eps htmainbw.eps hug.bbl hug.tex loop.eps pipe.eps ----------------------------------------------------------- size 107 kilobytes path: /netlib/hence/old-hence/sc91/ ----------------------------------------------------------- Xnt.mono.ps cond.eps fan.eps htconfig-mono.ps htexample-mono.ps loop.eps pipe.eps sc91.bbl sc91.tex stps.idr ----------------------------------------------------------- for solving nonlinear systems of equations by path: /netlib/hompack/ ----------------------------------------------------------- .depend Makefile dependencies readme for overview of hompack fixpdf.f for dense Jacobian alg ODE-based gams f2 fixpds.f for sparse Jacobian alg ODE-based gams f2 fixpnf.f for dense Jacobian alg normal flow gams f2 fixpns.f for sparse Jacobian alg normal flow gams f2 fixpqf.f for dense Jacobian alg augmented Jacobian gams f2 fixpqs.f for sparse Jacobian alg augmented Jacobian gams f2 polsys.f for all (complex) solutions to a system of n polynomial equations in n unknowns with real coefficients. Can return solutions at infinity if requested. gams f2 dcpose.f divp.f f.f ffunp.f fjac.f fjacs.f fode.f fodeds.f gfunp.f gmfads.f hfun1p.f hfunp.f initp.f innhp.dat mainf.f mainp.f mains.f mfacds.f mulp.f multds.f odoc.for otputp.f pcgds.f pcgns.f pcgqs.f polyp.f powp.f qimuds.f qrfaqf.f qrslqf.f rho.f rhoa.f rhojac.f rhojs.f root.f rootnf.f rootns.f rootqf.f rootqs.f sclgnp.f sintrp.f solvds.f stepds.f stepnf.f stepns.f stepqf.f stepqs.f steps.f strptp.f tangnf.f tangns.f tangqf.f tangqs.f upqrqf.f ----------------------------------------------------------- for first draft of language specification path: /netlib/hpf/ ----------------------------------------------------------- glombnf.c readme for overview of hpf hpf-info # hpf-info : General description of the High Performance Fortran Forum, including instructions for joining the mailing lists and retrieving documents related to HPF. ----------------------------------- hpf-v10-final.ps # hpf-v10-final.ps : This is the HPF Language specification, in Postscript(TM) format. Version 1.0 final. Last updated 5/24/93 (1155932 bytes). ----------------------------------- make-hpf-report # MAKE-HPF-REPORT : This is a UNIX shellscript to format the HPF language specification. Version 1.0 final Last updated 5/24/93 (2949 bytes) make-hpf-jod # MAKE-HPF-JOD: This is a UNIX shellscript to format the HPF language specification. Version 1.0 final Last updated 5/24/93 (2206 bytes) appendixes.tex # appendixes.tex: Main body of the HPF Journal of Development, LaTeX format. Version 1.0 final Last updated 5/24/93 (67805 bytes) bibliography.tex # bibliography.tex : Bibliography of the HPF language specification, LaTeX format. Version 1.0 final Last updated 5/24/93 (7346 bytes) bnf.tex # bnf.tex: BNF cross-reference appendix for the HPF language definition, LaTeX format. Version 1.0 final Last updated 5/24/93 (35711 bytes) credits.tex # credits.tex : Acknowledgements of the HPF language specification, LaTeX format. Version 1.0 final Last updated 5/24/93 (11194 bytes) distribution.tex # distribution.tex : Data distribution chapter of the HPF language specification, LaTeX format. Version 1.0 final Last updated 11/5/92 (121659 bytes) foreign.tex # foreign.tex : EXTRINSIC procedures chapter of the HPF language specification, LaTeX format. Version 1.0 final Last updated 5/24/93 (9347 bytes) hpf-jod.tex # hpf-jod.tex: Root file for the HPF Journal of Development (features not accepted in HPF, but of interest for future efforts), LaTeX format. Version 1.0 final Last updated 5/24/93 (3146 bytes) hpf-report.tex # hpf-report.tex : Root file for the HPF language specification, LaTeX format. Version 1.0 final Last updated 5/24/93 (3830 bytes) hpf-subset.tex # hpf-subset.tex : Official HPF subset chapter of the HPF language specification, LaTeX format. Version 1.0 final Last updated 5/24/93 (11045 bytes) intrinsics.tex # intrinsics.tex : Intrinsics and standard library chapter of the HPF language specification, LaTeX format. Version 1.0 final Last updated 5/24/93 (36943 bytes) jod-overview.tex # jod-overview.tex: Introduction to the HPF Journal of Development, LaTeX format. Version 1.0 final Last updated 5/24/93 (1017 bytes) local-annex.tex # local-annex.tex: HPF_LOCAL programming model for extrinsic functions in HPF language specification, LaTeX format. Version 1.0 final Last updated 5/24/93 (33399 bytes) overview.tex # overview.tex : Introduction chapter of the HPF language specification, LaTeX format. Version 1.0 final Last updated 5/24/93 (22587 bytes) sequence.tex # sequence.tex : Sequence and storage association chapter of the HPF language specification, LaTeX format. Version 1.0 final Last updated 5/24/93 (18204 bytes) statements.tex # statements.tex : FORALL and INDEPENDENT chapter of the HPF language specification, LaTeX format. Version 1.0 final Last updated 5/24/93 (86011 bytes) syntax-macs.tex # syntax-macs.tex : Macros used in processing the HPF language specification, LaTeX format. Version 1.0 final Last updated 5/24/93 (15630 bytes) terms.tex # terms.tex : Terminology and model chapter of the HPF language specification, LaTeX format. Version 1.0 final Last updated 5/24/93 (34198 bytes) elemental/ # Elemental: Directory containing definitions of elemental intrinsics in HPF language specification, LaTeX format. Includes files ilen.tex: defines ILEN leadz.tex: defines LEADZ popcnt.tex: defines POPCNT poppar.tex: defines POPPAR Version 1.0 final Last updated 5/24/93 grade/ # Grade: Directory containing definitions of sorting functions in HPF language specification, LaTeX format. Includes files grade-down.tex: defines GRADE_DOWN grade-up.tex: defines GRADE_UP inquiry/ # Inquiry: Directory containing definitions of system inquiry functions in HPF language specification, LaTeX format. Includes files number-of-processors.tex: defines NUMBER_OF_PROCESSORS processors-shape.tex: defines PROCESSORS_SHAPE mapping/ # Mapping: Directory containing definitions of mapping inquiry functions in HPF language specification, LaTeX format. Includes files mapping-inquiry.tex: defines HPF_ALIGNMENT, HPF_TEMPLATE, HPF_DISTRIBUTE minloc/ # Minloc: Directory containing definitions of extended MINLOC and MAXLOC in HPF language specification, LaTeX format. Includes files maxloc.tex: defines MAXLOC minloc.tex: defines MINLOC prefix/ # Prefix: Directory containing definitions of prefix and suffix functions in HPF language specification, LaTeX format. Includes files all-prefix.tex: defines ALL_PREFIX all-suffix.tex: defines ALL_SUFFIX any-prefix.tex: defines ANY_PREFIX any-suffix.tex: defines ANY_SUFFIX copy-prefix.tex: defines COPY_PREFIX copy-suffix.tex: defines COPY_SUFFIX count-prefix.tex: defines COUNT_PREFIX count-suffix.tex: defines COUNT_SUFFIX iall-prefix.tex: defines IALL_PREFIX iall-suffix.tex: defines IALL_SUFFIX iany-prefix.tex: defines IANY_PREFIX iany-suffix.tex: defines IANY_SUFFIX iparity-prefix.tex: defines IPARITY_PREFIX iparity-suffix.tex: defines IPARITY_SUFFIX maxval-prefix.tex: defines MAXVAL_PREFIX maxval-suffix.tex: defines MAXVAL_SUFFIX minval-prefix.tex: defines MINVAL_PREFIX minval-suffix.tex: defines MINVAL_SUFFIX parity-prefix.tex: defines PARITY_PREFIX parity-suffix.tex: defines PARITY_SUFFIX product-prefix.tex: defines PRODUCT_PREFIX product-suffix.tex: defines PRODUCT_SUFFIX sum-prefix.tex: defines SUM_PREFIX sum-suffix.tex: defines SUM_SUFFIX reduction/ # Reduction: Directory containing definitions of reduction functions in HPF language specification, LaTeX format. Includes files iall.tex: defines IALL iany.tex: defines IANY iparity.tex: defines IPARITY parity.tex: defines PARITY scatter/ # Scatter: Directory containing definitions of combining scatter functions in HPF language specification, LaTeX format. Includes files all-scatter.tex: defines ALL_SCATTER any-scatter.tex: defines ANY_SCATTER copy-scatter.tex: defines COPY_SCATTER count-scatter.tex: defines COUNT_SCATTER iall-scatter.tex: defines IALL_SCATTER iany-scatter.tex: defines IANY_SCATTER iparity-scatter.tex: defines IPARITY_SCATTER maxval-scatter.tex: defines MAXVAL_SCATTER minval-scatter.tex: defines MINVAL_SCATTER parity-scatter.tex: defines PARITY_SCATTER product-scatter.tex: defines PRODUCT_SCATTER sum-scatter.tex: defines SUM_SCATTER ----------------------------------------------------------- # Elemental: Directory containing definitions of path: /netlib/hpf/elemental/ ----------------------------------------------------------- # index for hpf/elemental # Elemental: Directory containing definitions of elemental intrinsics # in HPF language specification, LaTeX format. ilen.tex leadz.tex popcnt.tex poppar.tex ----------------------------------------------------------- # Grade: Directory containing definitions of path: /netlib/hpf/grade/ ----------------------------------------------------------- # index for hpf/grade # Grade: Directory containing definitions of sorting functions # in HPF language specification, LaTeX format. grade-down.tex grade-up.tex ----------------------------------------------------------- # Inquiry: Directory containing definitions of path: /netlib/hpf/inquiry/ ----------------------------------------------------------- # index for hpf/inquiry # Inquiry: Directory containing definitions of system inquiry functions # in HPF language specification, LaTeX format. number-of-processors.tex processors-shape.tex ----------------------------------------------------------- # Mapping: Directory containing definitions of path: /netlib/hpf/mapping/ ----------------------------------------------------------- # index for hpf/mapping # Mapping: Directory containing definitions of mapping inquiry functions # in HPF language specification, LaTeX format. mapping-inquiry.tex # defines HPF_ALIGNMENT, HPF_TEMPLATE, HPF_DISTRIBUTE ----------------------------------------------------------- # Minloc: Directory containing definitions of path: /netlib/hpf/minloc/ ----------------------------------------------------------- # index for hpf/minloc # Minloc: Directory containing definitions of extended MINLOC and MAXLOC # in HPF language specification, LaTeX format. maxloc.tex minloc.tex ----------------------------------------------------------- # Prefix: Directory containing definitions of path: /netlib/hpf/prefix/ ----------------------------------------------------------- # index for hpf/prefix # Prefix: Directory containing definitions of prefix and suffix functions # in HPF language specification, LaTeX format. all-prefix.tex all-suffix.tex any-prefix.tex any-suffix.tex copy-prefix.tex copy-suffix.tex count-prefix.tex count-suffix.tex iall-prefix.tex iall-suffix.tex iany-prefix.tex iany-suffix.tex iparity-prefix.tex iparity-suffix.tex maxval-prefix.tex maxval-suffix.tex minval-prefix.tex minval-suffix.tex parity-prefix.tex parity-suffix.tex product-prefix.tex product-suffix.tex sum-prefix.tex sum-suffix.tex ----------------------------------------------------------- # Reduction: Directory containing definitions of path: /netlib/hpf/reduction/ ----------------------------------------------------------- # index for hpf/reduction # Reduction: Directory containing definitions of reduction functions # in HPF language specification, LaTeX format. iall.tex iany.tex iparity.tex parity.tex ----------------------------------------------------------- # Scatter: Directory containing definitions of path: /netlib/hpf/scatter/ ----------------------------------------------------------- # index for hpf/scatter # Scatter: Directory containing definitions of combining scatter functions # in HPF language specification, LaTeX format. all-scatter.tex any-scatter.tex copy-scatter.tex count-scatter.tex iall-scatter.tex iany-scatter.tex iparity-scatter.tex maxval-scatter.tex minval-scatter.tex parity-scatter.tex product-scatter.tex sum-scatter.tex ----------------------------------------------------------- for International Journal of Supercomputer path: /netlib/ijsa/ ----------------------------------------------------------- # IJSA # ==== # Information on the International Journal of Supercomputer Applications # issues for The content of the past issues of the Journal # Last updated 2/6/94 (31306 bytes). contributors for information on contributing to the Journal # Late updated 2/22/94 (13218 bytes). readme ----------------------------------------------------------- for image processing path: /netlib/image/ ----------------------------------------------------------- morph/ for 2D and 3D Mathematical Morphology by Richard Alan Peters II, Electrical Engineering, Vanderbilt (615) 322-7924 rap2@vuse.vanderbilt.edu Mathematical morphology is a powerful tool for image analysis and enhancement. Morphological operators are shape-dependent, nonlinear image transforms such as erosion, dilation, opening, closing, and rank filters. The mathematical operators are defined in $n$ dimensions so it is possible to create programs that will operate on 1D signals, 2D images, or 3D datasets using exactly the same concepts. size 379 kB ----------------------------------------------------------- for 2D and 3D Mathematical Morphology path: /netlib/image/morph/ ----------------------------------------------------------- 2d/ 3d/ Makefile arith/ docs/ kernels/ man/ mclean/ scripts/ seq/ utils/ ----------------------------------------------------------- path: /netlib/image/morph/2d/ ----------------------------------------------------------- .make.state .nse_depinfo Makefile README Version_4.0 changes.doc mdilate.c merode.c mgetargs.c mimgmanip.c mloadse.c morph.c morph.h morph_sub.c morph_sub.h mrank.c msetupop.c mthresh.c ----------------------------------------------------------- path: /netlib/image/morph/3d/ ----------------------------------------------------------- .make.state .nse_depinfo Makefile m3dargs.c m3ddelay.c m3ddilate.c m3derode.c m3dmanip.c m3dmaxmin.c m3dminmax.c m3drank.c m3dse.c m3dse.h m3dsetup.c m3dthresh.c morph3d.c morph3d.h morph3d_sub.c morph3d_sub.h ----------------------------------------------------------- path: /netlib/image/morph/arith/ ----------------------------------------------------------- .make.state .nse_depinfo Makefile andimg.c andimg.h combimg.c combimg.h linco.c linco.h maximg.c maximg.h minimg.c minimg.h orimg.c ----------------------------------------------------------- path: /netlib/image/morph/docs/ ----------------------------------------------------------- announce.doc description.tex hit-or-miss.doc howtoinstall.doc programs.doc ----------------------------------------------------------- path: /netlib/image/morph/kernels/ ----------------------------------------------------------- bisod4.tfm bisod8.tfm d1.tfm d2.tfm da1.tfm da2.tfm da3.tfm da4.tfm gm3d01.tfm gm3d02.tfm gm3d03.tfm gm3d04.tfm gm3d05.tfm gm3d06.tfm gm3d07.tfm gm3d08.tfm gm3d09.tfm gm3ds01.tfm gm3ds02.tfm gm3ds03.tfm gm3ds04.tfm gm3ds05.tfm gm3ds06.tfm gm3ds07.tfm gm3ds08.tfm gm3ds09.tfm gm3ds10.tfm gm3ds11.tfm gm3ds12.tfm isod06.tfm isod26.tfm isod4.tfm isod8.tfm mmfw01.tfm mmfw02.tfm mmfw03.tfm mmfw04.tfm s2x2.tfm s4x4.tfm test.tfm ----------------------------------------------------------- path: /netlib/image/morph/man/ ----------------------------------------------------------- man1/ ----------------------------------------------------------- path: /netlib/image/morph/man/man1/ ----------------------------------------------------------- andimg.1 avg3d.1 comb3d.1 combimg.1 linco.1 maximg.1 mclean.1 minimg.1 morph.1 morph3d.1 orimg.1 ras2raw.1 rasremap.1 raw2ras.1 support.1 ----------------------------------------------------------- path: /netlib/image/morph/mclean/ ----------------------------------------------------------- .make.state .nse_depinfo Makefile mclean.c mclean.h ----------------------------------------------------------- path: /netlib/image/morph/scripts/ ----------------------------------------------------------- bclose bdilate berode bopen brank gfclose gfdilate gferode gfocco gfopen grank gsclose gsdilate gserode gsocco gsopen hitormiss invroll invtop isodel medge rollball thresh tophat ----------------------------------------------------------- path: /netlib/image/morph/seq/ ----------------------------------------------------------- .make.state .nse_depinfo Makefile avg3d.c avg3d.h comb3d.c comb3d.h ----------------------------------------------------------- path: /netlib/image/morph/utils/ ----------------------------------------------------------- .make.state .nse_depinfo Makefile ras2raw.c rasinfo.c rasremap.c rasterio.c rasterio.h raw2ras.c support.c support.h ----------------------------------------------------------- for Interprocessor Collective Communications path: /netlib/intercom/ ----------------------------------------------------------- # Index for intercom # Interprocessor Collective Communications Library (iCC) # # To retrieve a these files, send mail in the # form: # send from intercom # (where is from the list below) # to netlib@ornl.gov # # Current version on netlib: Release R2.0.0, March 1, 1995 group_example.f readme shpcc94.ps by M. Barnett, S. Gupta, D. Payne, L. Shuler, R. van de Geijn, and J. Watts, for Interprocessor Collective Communication Library (InterCom), Proceedings of the Scalable High Performance Computing Conference May, 1994 iCC.reference.ps for iCC Reference Guide iCC.summary.ps for iCC Summary iCC_group.h for "C" include file for the iCC group interface iCC_groupf.h for "FORTRAN" include file for the iCC group interface ----------------------------------------------------------- for Iterative Linear System Solvers path: /netlib/itpack/ ----------------------------------------------------------- # There are four packages in the ITPACK directory for solving # large sparse linear systems by iterative methods: ITPACK 2C (single # precision), ITPACK 2C (double precision), ITPACKV 2D (a vectorized # version of ITPACK 2C for the Cray Y-MP and similar vector computers), # and NSPCG. ITPACK 2C and ITPACKV 2D are intended for symmetric and # positive-definite matrix problems. NSPCG has preconditioners and # polynomial accelerators for nonsymmetric matrix problems as well. # Only single precision versions are available for ITPACKV 2D # and NSPCG. Machine-dependent constants and the timing function may # need to be modified by the user when installing the packages for a # particular computer. They are located in routines DFAULT and TIMER in # all four packages. dsrc2c.f for ITPACK 2C source code prec double gams d2b4 size 302 kB dtst2c.f for testing routine for ITPACK 2C prec double info.tex for information about CNA iterative packages lang LaTeX nspcg1.f for NSPCG source code, part 1 gams d2a4, d2b4 size 270 kB nspcg2.f for NSPCG source code, part 2 gams d2a4, d2b4 size 216 kB nspcg3.f for NSPCG source code, part 3 gams d2a4, d2b4 size 303 kB nspcg4.f for NSPCG source code, part 4 gams d2a4, d2b4 size 279 kB nspcg5.f for NSPCG source code, part 5 gams d2a4, d2b4 quick.tex for Quick Reference Guide for NSPCG (formatted with LaTeX) src2c.f for ITPACK 2C source code prec single gams d2b4 size 301 kB srcv2d.f for ITPACKV 2D source code (vectorized for Cray Y-MP) gams d2b4 size 230 kB tst2c.f for testing routine for s.p. ITPACK 2C tstnsp1.f for testing program 1 for NSPCG tstnsp2.f for testing program 2 for NSPCG tstnsp3.f for testing program 3 for NSPCG tstnsp4.f for testing program 4 for NSPCG tstnsp5.f for testing program 5 for NSPCG tstv2d.f for testing routine for ITPACKV 2D user2c.tex for ITPACK 2C User's Guide lang LaTeX usernsp.tex for NSPCG User's Guide lang LaTeX size 208 kB userv2d.tex for ITPACKV 2D User's Guide lang LaTeX ----------------------------------------------------------- for automatic differentiation path: /netlib/jakef/ ----------------------------------------------------------- abstract readme for initial remarks about jakef/jakeff doc for documentation for (jakef/jakeff) supportf for necessary support routines for (jakef/jakeff) jakeff for a precompiler to generate Fortran code for evaluation of gradients or Jacobians given Fortran code to evaluate a scalar or vector function size 200 kilobytes ----------------------------------------------------------- by Ward Cheney & David Kincaid path: /netlib/kincaid-cheney/ ----------------------------------------------------------- elimit.f for Example of a slowly converging sequence ref text 10 sqrt2.f for Example of a rapidly converging sequence ref text 10 nest.f for Nested multiplication ref text 14 epsi.f for Approximate value of machine precision ref text 36 depsi.f for Approximate value of double precision machine precision ref text 36 ex2s22.f for Loss of significance ref text 43-44 unstab1.f for Example of an unstable sequence ref text 49 unstab2.f for Example of another unstable sequence ref text 50 instab.f for Example of numerical instability ref text 50 ex1s31.f for Bisection method to find root of exp(x) = sinx (bisect) ref text 58-59 ex1s32.f for Newton's method example ref text 65 ex2s32.f for Simple Newton's method ref text 68 ex3s32.f for Implicit function example ref text 69-70 ex1s33.f for Secant method example (f ) ref text 76 ex3s34.f for Contractive mapping example ref text 83-84 ex3s35.f for Horner's method example ref text 93 ex6s35.f for Newton's method on a given polynomial (horner) ref text 94 ex7s35.f for Bairstow's method example ref text 99 laguerre.f for Laguerre's method example ref text 102 forsub.f for Forward substitution example ref text 127 bacsub.f for Backward substitution example ref text 127 pforsub.f for Forward substitution for a permuted system ref text 128 pbacsub.f for Backward substitution for a permuted system ref text 128 genlu.f for General LU-factorization example ref text 130 doolt.f for Doolittle's-factorization example ref text 131 cholsky.f for Cholesky-factorization example ref text 134 bgauss.f for Basic Gaussian elimination ref text 143 pbgauss.f for Basic Gaussian elimination with pivoting ref text 145 gauss.f for Gaussian elimination with scaled row pivoting ref text 148 paxeb.f for Solves Lz = Pb and then Ux = z (gauss) ref text 150 yaec.f for Solves UT z = c and then LTPy = z (gauss) ref text 151 tri.f for Tridiagonal system solver (tri) ref text 155 ex1s45.f for Neumann series example (setI, mult, store, add, prt) ref text 173 ex2s45.f for Gaussian elimination followed by iterative improvement (residual, gauss, solve) ref text 175 ex1s46.f for Example of Jacobi and Gauss-Seidel methods ref text 182 ex2s46.f for Richardson method example (with scaling) ref text 184 jacobi.f for Jacobi method example (with scaling) ref text 186 ex3s46.f for Gauss-Seidel method (with scaling) ref text 190 ex6s46.f for Chebyshev acceleration example (extrap, cheb, vnorm) ref text 200 steepd.f for Steepest descent method example (prod, mult) ref text 207 cg.f for Conjugate gradient method (prod, residual, mult) ref text 211 pcg.f for Jacobi preconditioned conjugate gradient method (prod, residual, mult) ref text 217 ex1s51.f for Power method example (dot, prod, store, norm, normal) ref text 231 poweracc.f for Power method with Aitken acceleration (dot, prod, store, norm, normal) ref text 231 ex2s51.f for Inverse power method example (gauss, dot, prod, store, norm, normal, solve) ref text 233 ipoweracc.f for Inverse power method with Aitken acceleration (gauss, dot, prod, store, norm, normal, solve) ref text 233 ex1s52.f for Schur factorization example (prtmtx, mult) ref text 239 qrshif.f for Modified Gram-Schmidt example (prtmtx, mgs, mult) ref text 248 ex1s53.f for QR-factorization using Householder transformations (QRfac, setoI, prtmtx, UtimesA, findV, prod, formU, formW, trans, mult) ref text 253-255 ex2s55.f for QR-factorization example (QRfac, setoI, prtmtx, UtimesA, findV, prod, formU, formW, trans, mult, copy, scale) ref text 272-273 ex3s55.f for Shifted QR-factorization example (submtx, shiftA, unshiftA, hess, QRfac, setoI, prtmtx, UtimesA, findU, findV, prod, formU, formW, Trans, mult, copy, scale) ref text 274 coef.f for Coefficients in the Newton form of a polynomial ref text 280-281 fft.f for Fast Fourier transform example (f ) ref text 419 adapta.f for Adaptive approximation example (f, max) ref text 426-428 ex1s71.f for Derivative approximations: forward difference formula ref text 431-432 ex2s71.f for Derivative approximation: central difference ref text 434 ex5s71.f for Derivative approximation: Richardson extrapolation ref text 437-438 ex6s71.f for Richardson extrapolation ref text 440-441 gauss5.f for Gaussian five-point quadrature example ref text 459 romberg.f for Romberg extrapolation ref text 468 adapt.f for Adaptive quadrature ref text 475 taylor.f for Taylor-series method ref text 492 rk4.f for Runge-Kutta method (f, u) ref text 501-502 rkfelberg.f for Runge-Kutta-Fehlberg method (f ) ref text 503-505 taysys.f for Taylor series for systems ref text 526-527 exs91.f for Boundary value problem (BVP): Explicit method example (a, b, vnorm) ref text 576 exs92.f for BVP: Implicit method example (tri, unorm) ref text 582 exs93.f for Finite difference method (g ) ref text 589 ex3s96.f for BVP: Method of characteristics (f, g, df, tu) ref text 613 mgrid1.f for Multigrid method example (vnorm) ref text 624 exs98.f for Damping of errors ref text 625 mgrid2.f for Multigrid method V-cycle (vnorm) ref text 630 code-info.tex for introduction code-info.tty for introduction shar for entire library ----------------------------------------------------------- for a few eigenvalues/eigenvectors of a large path: /netlib/lanczos/ ----------------------------------------------------------- hleval for distinct eigenvalue of a Hermitian matrix using Lanczos tridiagonalization without reorthogonalization leval for distinct eigenvalues of a real symmetric matrix using Lanczos tridiagonalization lsval for distinct singular values of a real, rectangular matrix using Lanczos tridiagonalization hlemult for internal routines to generate real symmetric tridiagonal matrices for (lanczos/hleval) and (lanczos/hlevec) hlevec for eigenvectors of a Hermitian matrix, called with the eigenvalues from (lanczos/hleval) levec for eigenvectors of a real symmetric matrix, called with the eigenvalues from (lanczos/leval) lemult for internal routines to generate real symmetric tridiagonal matrices for (lanczos/leval) and (lanczos/levec) lesub for internal routines for (lanczos/leval) and (lanczos/levec) lsvec for singular vectors of a real, rectangular matrix using singular values from (lanczos/lsval) lsmult for internal routines to generate real symmetric tridiagonal matrices for (lanczos/lsval) and (lanczos/lsvec) lssub for internal routines for (lanczos/lsval) and (lanczos/lsvec) levalhed for documentation for Lanczos real and Hermetian eigenvalue/eigenvector codes lsvalhed for documentation for singular value/vector Lanczos codes data for input/output file definitions and sample input files for (lanczos/leval) and (lanczos/levec) hlevalio for list of i/o files and sample input for (lanczos/hleval) hlevecio for list of i/o files and sample input for (lanczos/hlevec) levalio for list of i/o files and sample input for (lanczos/leval) levecio for list of i/o files and sample input for (lanczos/levec) lsvalio for list of i/o files and sample input for (lanczos/lsval) lsvecio for list of i/o files and sample input for (lanczos/lsvec) # for lgval and lgmult, contact Jane Cullum # directly. errata foo foo2 foo3 jane1 jane2 jane3 jane4 levaled lsvaled lump message ralph1 ralph2 singed xxx ----------------------------------------------------------- for Large Sparse Symmetric Generalized Eigenproblem path: /netlib/lanz/ ----------------------------------------------------------- # ======== index for lanz ======= # LANZ: Software for Solving the Large Sparse Symmetric Generalized # Eigenproblem # Mark T. Jones, Argonne National Laboratory, Argonne, Illinois 60439-4844 # Merrell L. Patrick, Duke University, Durham, North Carolina 27706 # # LANZ solves the symmetric generalized eigenproblem, # \begin{equation} # Kx=\lambda Mx, # \end{equation} # where $K$ is symmetric positive definite and $M$ is # positive semi-definite. It is also capable of solving # \begin{equation} # Kx=-\lambda Mx, # \end{equation} # where $M$ can be indefinite. # It can find either 1) all # the eigenpairs in a user-specified range, or 2) the $p$ eigenpairs # closest to some user-specified value, $\sigma$. # The LANZ package was developed to run efficiently on a range of # architectures, including vector and parallel computers. # # LANZ is an implementation of the algorithm described in # \cite{jones:lanczos}. The heart of LANZ is # the Lanczos algorithm used with spectral transformations # similar to those described in \cite{nour-omid:implement}. LANZ uses # the partial reorthogonalization algorithm, originally proposed # in \cite{simon:partial}, and expanded upon in \cite{parlett:semi_ortho}, # to maintain semi-orthogonality among the Lanczos vectors. # In addition, LANZ uses a dynamic shifting algorithm to accelerate # convergence to desired eigenpairs in a slightly different fashion # than in \cite{boeing:small_lan_report}. # \bibitem{jones:lanczos} # {\sc Jones, M.~T., and Patrick, M.~L.} # \newblock {The Use of Lanczos's Method to Solve the Large Generalized # Symmetric Definite Eigenvalue Problem}. # \newblock Technical Report 89-67, Institute for Computer Applications in # Science and Engineering (ICASE), NASA Langley Research Center, Hampton, VA, # 1989. # \bibitem{nour-omid:implement} # {\sc Nour-Omid, B., Parlett, B.~N., Ericsson, T., and Jensen, P.~S.} # \newblock {How to Implement the Spectral Transformation}. # \newblock {\em Mathematics of Computation 48}, 178 (April 1987), 663--673. # \bibitem{simon:partial} # {\sc Simon, H.~D.} # \newblock {The Lanczos Algorithm With Partial Reorthogonalization}. # \newblock {\em Mathematics of Computation 42}, 165 (January 1984), 115--142. # \bibitem{parlett:semi_ortho} # {\sc Parlett, B.~N., Nour-Omid, B., and Liu, Z.~A.} # \newblock {How to Maintain Semi-Orthogonality Among Lanczos Vectors}. # \newblock {PAM-420}, Center for Pure and Applied Mathematics, University of # California, Berkeley, July, 1988. # \bibitem{boeing:small_lan_report} # {\sc Grimes, R.~G., Lewis, J.~G., and Simon, H.~D.} # \newblock {The Implementation of a Block Lanczos Algorithm with # Reorthogonalization Methods}. # \newblock {ETA-TR-91}, Boeing Computer Servies, Seattle, WA, May, 1988. lanz_file1/ for code, documentation, makefiles, etc. size 407 kilobytes lanz_file2/ for code, documentation, makefiles, etc. size 1038 kilobytes lanz_file3 for just code, no documentation size 462 kilobytes lang Fortran lanz_file4 size 4 kilobytes lang C # Installation of LANZ, depending on your architecture, may take up # to 3.5mb of disk space. After installing LANZ, if you desire, you # can delete all but one or two files created by the installation # process. ----------------------------------------------------------- for code, documentation, makefiles, etc. path: /netlib/lanz/lanz_file1/ ----------------------------------------------------------- lanz_src/ ----------------------------------------------------------- path: /netlib/lanz/lanz_file1/lanz_src/ ----------------------------------------------------------- MAX/ Makedir/ Makefile README convex.obj/ convtb.obj/ cray.obj/ cray2tb.obj/ documents/ encore.obj/ matrices/ pymp.obj/ sun3.obj/ sun4.obj/ ----------------------------------------------------------- path: /netlib/lanz/lanz_file1/lanz_src/MAX/ ----------------------------------------------------------- README makefile.convex makefile.cray makefile.encore makefile.sun3 makefile.sun4 ----------------------------------------------------------- path: /netlib/lanz/lanz_file1/lanz_src/Makedir/ ----------------------------------------------------------- README all.body1 all.body3 convex.body convex.head convtb.body convtb.head cray.body cray.head cray2tb.body cray2tb.head encore.body encore.head pymp.body pymp.head sun3.body sun3.head sun4.body sun4.head ----------------------------------------------------------- path: /netlib/lanz/lanz_file1/lanz_src/convex.obj/ ----------------------------------------------------------- README ----------------------------------------------------------- path: /netlib/lanz/lanz_file1/lanz_src/convtb.obj/ ----------------------------------------------------------- README ----------------------------------------------------------- path: /netlib/lanz/lanz_file1/lanz_src/cray.obj/ ----------------------------------------------------------- README ----------------------------------------------------------- path: /netlib/lanz/lanz_file1/lanz_src/cray2tb.obj/ ----------------------------------------------------------- README ----------------------------------------------------------- path: /netlib/lanz/lanz_file1/lanz_src/documents/ ----------------------------------------------------------- README driver.doc install.doc lanz.bbl lanz.tex mach_dep.doc makefile.doc memory.doc notes.encore notes.pymp notes.sun parallel.doc prog_flow.doc solver.doc sub_list.doc ----------------------------------------------------------- path: /netlib/lanz/lanz_file1/lanz_src/encore.obj/ ----------------------------------------------------------- README ----------------------------------------------------------- path: /netlib/lanz/lanz_file1/lanz_src/matrices/ ----------------------------------------------------------- README autotest cy7.k cy7.m.diag cy7.m.indef cy7.m.sp input.test1 input.test2 input.test3 input.test4 input.test5 input.test6 input.test7 out1 out2 out3 out4 out5 out6 out7 tmat1.k tmat1.m tmat2.k tmat2.m tmat3.m ----------------------------------------------------------- path: /netlib/lanz/lanz_file1/lanz_src/pymp.obj/ ----------------------------------------------------------- README ----------------------------------------------------------- path: /netlib/lanz/lanz_file1/lanz_src/sun3.obj/ ----------------------------------------------------------- README ----------------------------------------------------------- path: /netlib/lanz/lanz_file1/lanz_src/sun4.obj/ ----------------------------------------------------------- README ----------------------------------------------------------- for code, documentation, makefiles, etc. path: /netlib/lanz/lanz_file2/ ----------------------------------------------------------- lanz_src/ ----------------------------------------------------------- path: /netlib/lanz/lanz_file2/lanz_src/ ----------------------------------------------------------- MAX/ bisect.msc bound.msc bsort.msc bunch.msc chkfin.msc dblas.msc dprep.msc eigclc.msc eigmat.msc falloc.msc fndsht.msc genqmd.msc getind.msc getnrm.msc lanczs.msc lanz.msc main.msc matrt.msc matslv.msc mshift.msc newton.msc numles.msc patterns predct.msc prep.msc purge.msc qmdmrg.msc qmdqt.msc qmdrch.msc qmdupd.msc readit.msc sblas.msc smbfct.msc spelim.msc spfact.msc spslve.msc timdep.msc timeit.msc toupper.c tql2.msc trans.msc utilgp.msc vbldnz.msc vblds6.msc vcrout.msc ----------------------------------------------------------- path: /netlib/lanz/lanz_file2/lanz_src/MAX/ ----------------------------------------------------------- cmxdat.inc max.convex.f max.cray.f max.sun.f ----------------------------------------------------------- for the most common problems in numerical linear path: /netlib/lapack/ ----------------------------------------------------------- # ====================================================================== # LAPACK, Version 1.0 Date: February 29, 1992 # LAPACK, Version 1.0a Date: June 30, 1992 # LAPACK, Version 1.0b Date: October 31, 1992 # LAPACK, Version 1.1 Date: March 31, 1993 # LAPACK, Version 2.0 Date: September 30, 1994 # ====================================================================== # # ( L A P A C K ) # ( L -A P -A C -K ) # ( L A P A -C -K ) # ( L -A P -A -C K ) # ( L A -P -A C K ) # ( L -A -P A C -K ) # -------------------------- # Available software/reports: # -------------------------- intro lapack/ for (FOR NON EMAIL USERS ONLY) This is the COMPLETE package (installation, testing, and timing) in tar gzip form (4038816 bytes). All revisions included. This cannot be retrieved via email. Updated: September 30, 1994 lapack-pc/ for (FOR NON EMAIL USERS ONLY) This is the PC version of LAPACK. All files have been run through a UNIX-to-DOS file converter and then put into tar gzip form (4099755 bytes). lapack_alpha/ for (FOR NON EMAIL USERS ONLY) This tar file contains a README file and the lapack.a for a DEC 3000-500 ALPHA. DEC OSF/1 V1.2. Refer to the README file for architectural characteristics. (3247960 bytes) This cannot be retrieved via email. lapack_hppa/ for (FOR NON EMAIL USERS ONLY) This tar file contains a README file and the lapack.a for an HP 9000/715. HP-UX 9.01. Refer to the README file for architectural characteristics. (2200610 bytes) This cannot be retrieved via email. lapack_rs6k/ for (FOR NON EMAIL USERS ONLY) This tar file contains a README file and the lapack.a for an IBM RS/6000. AIX 3.2.5 and XLF 3.1. Refer to the README file for architectural characteristics. (2129947 bytes) This cannot be retrieved via email. lapack_sgi5/ for (FOR NON EMAIL USERS ONLY) This tar file contains a README file and the lapack.a for a SGI5 (Indy). IRIX 5.3. Refer to the README file for architectural characteristics. (2845128 bytes) This cannot be retrieved via email. lapack_sun4/ for (FOR NON EMAIL USERS ONLY) This tar file contains a README file and the lapack.a for a SUN4. SunOS 4.1.3 and F77 1.4 (SC 2.0.1). Refer to the README file for architectural characteristics. (2454338 bytes) This cannot be retrieved via email. note testing/ for (FOR NON EMAIL USERS ONLY) This is a gzip tar file of the testing directory (1406501 bytes). This cannot be retrieved via email. manpages/ for (FOR NON EMAIL USERS ONLY) This is a gzip tar file of the manual pages for the LAPACK driver and computational routines. Also included is an equivalence program, giving conversion equivalence information for LINPACK and EISPACK to LAPACK. (618976 bytes). This cannot be retrieved via email. revisions.info for Text file explaining the changes that were made to the LAPACK software in version 2.0. release_notes for List of known problems, bugs, and compiler errors, as well as ERRATA for the LAPACK Users' Guide and the LAPACK code itself. single/ for single precision real LAPACK routines prec single double/ for double precision real LAPACK routines prec double complex/ for single precision complex LAPACK routines prec complex complex16/ for double precision complex LAPACK routines prec doublecomplex util/ for LAPACK utility routines testing/ for Subdirectory containing the testing routines for lapack. timing/ for Subdirectory containing the timing routines for lapack. lawns/ for Subdirectory containing the LAPACK Working Notes # To find out what is available and retrieve a postscript copy of these reports, send mail in the form: send index from lapack/lawns send lawnxx from lapack/lawns These reports are kept only at netlib@ornl.gov. essl/ for Subdirectory containing CCI (Call Conversion Interface) for LAPACK/ESSL. See lawn82 for more information. # For a c++ implementation of LAPACK see directory c++/lapack++ # c++/lapack++/ for LAPACK++. LAPACK extensions for high performance linear algebra computations. This version includes support for solving linear systems using LU, Cholesky, and QR matrix factorizations. by Roldan Pozo # For a c implementation of LAPACK see directory clapack # clapack/ for CLAPACK. An f2c'ed conversion of LAPACK. # For a distributed-memory implementation of LAPACK see directory scalapack # scalapack/ for ScaLAPACK. A portable implementation of some of the core routines in LAPACK across PVM, Intel machines, CM-5, and IBM SPs. # ******************* # Questions/comments? Direct email to lapack@cs.utk.edu # ******************* # Jack Dongarra # Susan Ostrouchov # ====================================================================== # *************** # WHAT IS LAPACK? # *************** # LAPACK is a transportable library of Fortran 77 subroutines for # solving the most common problems in numerical linear algebra: systems # of linear equations, linear least squares problems, eigenvalue problems, # and singular value problems. It has been designed to be efficient # on a wide range of modern high-performance computers. # LAPACK is intended to be the successor to LINPACK and EISPACK. # It extends the functionality of these packages by including # equilibration, iterative refinement, error bounds, and driver routines # for linear systems, routines for computing and re-ordering the Schur # factorization, and condition estimation routines for eigenvalue # problems. LAPACK improves on the accuracy of the standard algorithms # in EISPACK by including high accuracy algorithms for finding singular # values and eigenvalues of bidiagonal and tridiagonal matrices # respectively that arise in SVD and symmetric eigenvalue problems. # The algorithms and software have been restructured to achieve high # efficiency on vector processors, high-performance ``superscalar'' # workstations, and shared-memory multiprocessors. # A comprehensive testing and timing suite is provided along with the # LAPACK software. # It is highly recommended that you obtain a copy of the Second Edition of # the LAPACK Users' Guide published by SIAM. This second edition will be # available February, 1994. This Users' Guide gives a detailed # description of the philosophy behind LAPACK as well as an explanation of # its usage. The LAPACK Users' Guide can be purchased from: # SIAM; 3600 University City Science Center; Philadelphia, PA 19104-2688; # 215-382-9800, FAX 215-386-7999. It will also be available from booksellers. # To order by email, send email to service@siam.org. # The complete LAPACK package can be obtained on magnetic media from NAG # for a nominal handling charge. For further details contact NAG at one # of the following addresses: # NAG Inc NAG Ltd NAG GmbH # 1400 Opus Place Wilkinson House Schleissheimerstrasse 5 # Suite 200 Jordan Hill Road W-8046 Garching bei Munchen # Downers Grove, IL 60515-5702 Oxford OX2 8DR Germany # USA England # Tel: +1 708 971 2337 Tel: +44 865 511245 Tel: +49 89 3207395 # Fax: +1 708 971 2706 Fax: +44 865 310139 Fax: +49 89 3207396 # LAPACK has been funded in part by NSF, DOE, and DARPA, with # developmental support from NAG Ltd., Cray Research, and many friends # and colleagues around the world. # ( l l l l ) # ( a -a a -a ) # 1/4 * ( p p -p -p ) # ( a -a -a a ) # ( c c -c -c ) # ( k -k -k k ) # ====================================================================== # -------------- # About the BLAS # -------------- # THE BLAS ARE NOT PROVIDED BY NETLIB WHEN LAPACK ROUTINES ARE REQUESTED. # LAPACK routines are written so that as much as possible of the computation # is performed by calls to the Basic Linear Algebra Subprograms (BLAS). # Highly efficient machine-specific implementations of the BLAS are # available for many modern high-performance computers. The BLAS # enable LAPACK routines to achieve high performance with portable software. # The BLAS are not strictly speaking part of LAPACK, but Fortran 77 code # for the BLAS is distributed with LAPACK, or can be obtained separately # from netlib: # send index from blas # will retrieve more information. We consider the Fortran version the model # implementation and as such is not expected to perform as well as a specially # tuned implementation on most high-performance computers --- on some machines # it may give much worse performance --- but it allows users to run LAPACK # software on machines that do not offer any other implementation of the BLAS. # ------------- # Naming Scheme: # ------------- # The name of each LAPACK routine is a coded specification of # its function (within the very tight limits of standard Fortran 77 # 6-character names). # All driver and computational routines have names of the form XYYZZZ, # where for some driver routines the 6th character is blank. # The first letter, X, indicates the data type as follows: # S REAL # D DOUBLE PRECISION # C COMPLEX # Z COMPLEX*16 or DOUBLE COMPLEX # The next two letters, YY, indicate the type of matrix (or of the most # significant matrix). Most of these two-letter codes apply to both real # and complex matrices; a few apply specifically to one or the other. # The last three letters ZZZ indicate the computation performed. # For example, SGEBRD is a single precision routine that performs a # bidiagonal reduction (BRD) of a real general matrix. # ====================================================================== ----------------------------------------------------------- for single precision complex LAPACK routines path: /netlib/lapack/complex/ ----------------------------------------------------------- # ------------------------------------------------------- # Available SIMPLE and DIVIDE AND CONQUER DRIVER routines: # ------------------------------------------------------- .depend cgbtf2.f cgebd2.f cgehd2.f cgelq2.f cgeql2.f cgeqr2.f cgerq2.f cgesv.f for Solves a general system of linear equations AX=B. gams d2c1 cgbsv.f for Solves a general banded system of linear equations AX=B. gams d2c2 cgetf2.f cgtsv.f for Solves a general tridiagonal system of linear equations AX=B. gams d2c2a chegs2.f chetd2.f chetf2.f clabrd.f clacgv.f clacon.f clacpy.f clacrm.f clacrt.f cladiv.f claed0.f claed7.f claed8.f claein.f claesy.f claev2.f clags2.f clagtm.f clahef.f clahqr.f clahrd.f claic1.f clangb.f clange.f clangt.f clanhb.f clanhe.f clanhp.f clanhs.f clanht.f clansb.f clansp.f clansy.f clantb.f clantp.f clantr.f clapll.f clapmt.f claqgb.f claqge.f claqhb.f claqhe.f claqhp.f claqsb.f claqsp.f claqsy.f clar2v.f clarf.f clarfb.f clarfg.f clarft.f clarfx.f clargv.f clarnv.f clartg.f clartv.f clascl.f claset.f clasr.f classq.f claswp.f clasyf.f clatbs.f clatps.f clatrd.f clatrs.f clatzm.f clauu2.f clauum.f cpbtf2.f cposv.f for Solves a Hermitian positive definite system of linear equations AX=B. gams d2d1b cpotf2.f cppsv.f for Solves a Hermitian positive definite system of linear equations AX=B, where A is in packed storage. gams d2d1b cpbsv.f for Solves a Hermitian positive definite banded system of linear equations AX=B. gams d2d2 cptsv.f for Solves a Hermitian positive definite tridiagonal system of linear equations AX=B. gams d2d2a crot.f cspmv.f cspr.f csrot.f csrscl.f csymv.f csyr.f csysv.f for Solves a complex symmetric indefinite system of linear equations AX=B. gams d2c1 chesv.f for Solves a complex Hermitian indefinite system of linear equations AX=B. gams d2d1a cspsv.f for Solves a complex symmetric indefinite system of linear equations AX=B, where A is held in packed storage. gams d2c1 chpsv.f for Solves a complex Hermitian indefinite system of linear equations AX=B, where A is held in packed storage. gams d2d1a cgels.f for Computes the least squares solution to an over-determined system of linear equations, A X=B or A**H X=B, or the minimum norm solution of an under-determined system, where A is a general rectangular matrix of full rank, using a QR or LQ factorization of A. gams d9a1 cgglse.f for Solves the LSE (Constrained Linear Least Squares Problem) using the GRQ (Generalized RQ) factorization gams d9b1 cggglm.f for Solves the GLM (Generalized Linear Regression Model) using the GQR (Generalized QR) factorization cheev.f for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix. gams d4a3 cheevd.f for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a3 chpev.f for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix in packed storage. gams d4a3 chpevd.f for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix in packed storage. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a3 chbev.f for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian band matrix. gams d4a3, d4a6 chbevd.f for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian band matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a3, d4a6 cgees.f for Computes the eigenvalues and Schur factorization of a general matrix, and orders the factorization so that selected eigenvalues are at the top left of the Schur form. gams d4a4 cgeev.f for Computes the eigenvalues and left and right eigenvectors of a general matrix. gams d4a4 cgesvd.f for Computes the singular value decomposition (SVD) of a general rectangular matrix. gams d6 chegv.f for Computes all eigenvalues and the eigenvectors of a generalized Hermitian-definite generalized eigenproblem, Ax= lambda Bx, ABx= lambda x, or BAx= lambda x. gams d4b3 chpgv.f for Computes all eigenvalues and eigenvectors of a generalized Hermitian-definite generalized eigenproblem, Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, where A and B are in packed storage. gams d4b3 chbgv.f for Computes all the eigenvalues, and optionally, the eigenvectors of a complex generalized Hermitian-definite banded eigenproblem, of the form A*x=(lambda)*B*x. A and B are assumed to be Hermitian and banded, and B is also positive definite. cgegs.f for Computes the generalized eigenvalues, Schur form, and left and/or right Schur vectors for a pair of nonsymmetric matrices cgegv.f for Computes the generalized eigenvalues, and left and/or right generalized eigenvectors for a pair of nonsymmetric matrices cggsvd.f for Computes the Generalized Singular Value Decomposition # --------------------------------- # Available EXPERT DRIVER routines: # --------------------------------- cgesvx.f for Solves a general system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2c1 cgbsvx.f for Solves a general banded system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2c2 cgtsvx.f for Solves a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2c2a cposvx.f for Solves a Hermitian positive definite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2d1b cppsvx.f for Solves a Hermitian positive definite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2d1b cpbsvx.f for Solves a Hermitian positive definite banded system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2d2 cptsvx.f for Solves a Hermitian positive definite tridiagonal system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2d2a csysvx.f for Solves a complex symmetric indefinite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2c1 chesvx.f for Solves a complex Hermitian indefinite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2d1a cspsvx.f for Solves a complex symmetric indefinite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2c1 chpsvx.f for Solves a complex Hermitian indefinite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2d1a cgelsx.f for Computes the minimum norm least squares solution to an over- or under-determined system of linear equations A X=B, using a complete orthogonal factorization of A. gams d9a1 cgelss.f for Computes the minimum norm least squares solution to an over- or under-determined system of linear equations A X=B, using the singular value decomposition of A. gams d9a1 cheevx.f for Computes selected eigenvalues and eigenvectors of a Hermitian matrix. gams d4a3 chpevx.f for Computes selected eigenvalues and eigenvectors of a Hermitian matrix in packed storage. gams d4a3 chbevx.f for Computes selected eigenvalues and eigenvectors of a Hermitian band matrix. gams d4a3, d4a6 cgeesx.f for Computes the eigenvalues and Schur factorization of a general matrix, orders the factorization so that selected eigenvalues are at the top left of the Schur form, and computes reciprocal condition numbers for the average of the selected eigenvalues, and for the associated right invariant subspace. gams d4a4 cgeevx.f for Computes the eigenvalues and left and right eigenvectors of a general matrix, with preliminary balancing of the matrix, and computes reciprocal condition numbers for the eigenvalues and right eigenvectors. gams d4a4 # --------------------------------- # Available COMPUTATIONAL routines: # --------------------------------- cbdsqr.f for Computes the singular value decomposition (SVD) of a real bidiagonal matrix, using the bidiagonal QR algorithm. gams d6 cgbbrd.f Reduces a complex general band matrix to real upper bidiagonal form by a unitary transformation. cgbcon.f for Estimates the reciprocal of the condition number of a general band matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by CGBTRF. gams d2c2 cgbequ.f for Computes row and column scalings to equilibrate a general band matrix and reduce its condition number. gams d2c2 cgbrfs.f for Improves the computed solution to a general banded system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2c2 cgbtrf.f for Computes an LU factorization of a general band matrix, using partial pivoting with row interchanges. gams d2c2 cgbtrs.f for Solves a general banded system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by CGBTRF. gams d2c2 cgebak.f for Transforms eigenvectors of a balanced matrix to those of the original matrix supplied to CGEBAL. gams d4c4 cgebal.f for Balances a general matrix in order to improve the accuracy of computed eigenvalues. gams d4c1a cgebrd.f for Reduces a general rectangular matrix to real bidiagonal form by an orthogonal/unitary transformation. gams d6 cgecon.f for Estimates the reciprocal of the condition number of a general matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by CGETRF. gams d2c1 cgeequ.f for Computes row and column scalings to equilibrate a general rectangular matrix and reduce its condition number. gams d2c1 cgehrd.f for Reduces a general matrix to upper Hessenberg form by an unitary similarity transformation. gams d4c1b2 cgelqf.f for Computes an LQ factorization of a general rectangular matrix. gams d5 cgeqlf.f for Computes a QL factorization of a general rectangular matrix. gams d5 cgeqpf.f for Computes a QR factorization with column pivoting of a general rectangular matrix. gams d5 cgeqrf.f for Computes a QR factorization of a general rectangular matrix. gams d5 cgerfs.f for Improves the computed solution to a general system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2c1 cgerqf.f for Computes an RQ factorization of a general rectangular matrix. gams d5 cgetrf.f for Computes an LU factorization of a general matrix, using partial pivoting with row interchanges. gams d2c1 cgetri.f for Computes the inverse of a general matrix, using the LU factorization computed by CGETRF. gams d2c1 cgetrs.f for Solves a general system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by CGETRF. gams d2c1 cggbak.f for Forms the right or left eigenvectors of the generalized eigenvalue problem by backward transformation on the computed eigenvectors of the balanced pair of matrices output by CGGBAL. cggbal.f for Balances a pair of general complex matrices for the generalized eigenvalue problem A x = lambda B x. cgghrd.f for Reduces a pair of complex matrices to generalized upper Hessenberg form using unitary similarity transformations. cggqrf.f for Computes a generalized QR factorization of a pair of matrices. cggrqf.f for Computes a generalized RQ factorization of a pair of matrices. cggsvp.f for Computes unitary matrices as a preprocessing step for computing the generalized singular value decomposition cgtcon.f for Estimates the reciprocal of the condition number of a general tridiagonal matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by CGTTRF. gams d2c2a cgtrfs.f for Improves the computed solution to a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2c2a cgttrf.f for Computes an LU factorization of a general tridiagonal matrix, using partial pivoting with row interchanges. gams d2c2a cgttrs.f for Solves a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by CGTTRF. gams d2c2a chgeqz.f for Implements a single-/double-shift version of the QZ method for finding the generalized eigenvalues of the equation det(A - w(i) B) = 0 chsein.f for Computes specified right and/or left eigenvectors of an upper Hessenberg matrix by inverse iteration. gams d4c3 chseqr.f for Computes the eigenvalues and Schur factorization of an upper Hessenberg matrix, using the multishift QR algorithm. gams d4c2b csytf2.f ctrti2.f cung2l.f cung2r.f cungl2.f cungr2.f cunm2l.f cunm2r.f cunml2.f cunmr2.f cupgtr.f for Generates the unitary transformation matrix from a reduction to tridiagonal form determined by CHPTRD. gams d4c1b1 cupmtr.f for Multiplies a general matrix by the unitary transformation matrix from a reduction to tridiagonal form determined by CHPTRD. gams d4c4 cungbr.f for Generates the unitary transformation matrices from a reduction to bidiagonal form determined by CGEBRD. gams d6 cunghr.f for Generates the unitary transformation matrix from a reduction to Hessenberg form determined by CGEHRD. gams d4c1b2 cunglq.f for Generates all or part of the unitary matrix Q from an LQ factorization determined by CGELQF. gams d5 cungql.f for Generates all or part of the unitary matrix Q from a QL factorization determined by CGEQLF. gams d5 cungqr.f for Generates all or part of the unitary matrix Q from a QR factorization determined by CGEQRF. gams d5 cungrq.f for Generates all or part of the unitary matrix Q from an RQ factorization determined by CGERQF. gams d5 cungtr.f for Generates the unitary transformation matrix from a reduction to tridiagonal form determined by CHETRD. gams d4c1b1 cunmbr.f for Multiplies a general matrix by one of the unitary transformation matrices from a reduction to bidiagonal form determined by CGEBRD. gams d6 cunmhr.f for Multiplies a general matrix by the unitary transformation matrix from a reduction to Hessenberg form determined by CGEHRD. gams d4c4 cunmlq.f for Multiplies a general matrix by the unitary matrix from an LQ factorization determined by CGELQF. gams d5 cunmql.f for Multiplies a general matrix by the unitary matrix from a QL factorization determined by CGEQLF. gams d5 cunmqr.f for Multiplies a general matrix by the unitary matrix from a QR factorization determined by CGEQRF. gams d5 cunmrq.f for Multiplies a general matrix by the unitary matrix from an RQ factorization determined by CGERQF. gams d5 cunmtr.f for Multiplies a general matrix by the unitary transformation matrix from a reduction to tridiagonal form determined by CHETRD. gams d4c4 cpbcon.f for Estimates the reciprocal of the condition number of a Hermitian positive definite band matrix, using the Cholesky factorization computed by CPBTRF. gams d2d2 cpbequ.f for Computes row and column scalings to equilibrate a Hermitian positive definite band matrix and reduce its condition number. gams d2d2 cpbrfs.f for Improves the computed solution to a Hermitian positive definite banded system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2d2 cpbstf.f for Computes a split Cholesky factorization of a complex Hermitian positive definite band matrix. cpbtrf.f for Computes the Cholesky factorization of a Hermitian positive definite band matrix. gams d2d2 cpbtrs.f for Solves a Hermitian positive definite banded system of linear equations AX=B, using the Cholesky factorization computed by CPBTRF. gams d2d2 cpocon.f for Estimates the reciprocal of the condition number of a Hermitian positive definite matrix, using the Cholesky factorization computed by CPOTRF. gams d2d1b cpoequ.f for Computes row and column scalings to equilibrate a Hermitian positive definite matrix and reduce its condition number. gams d2d1b cporfs.f for Improves the computed solution to a Hermitian positive definite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2d1b cpotrf.f for Computes the Cholesky factorization of a Hermitian positive definite matrix. gams d2d1b cpotri.f for Computes the inverse of a Hermitian positive definite matrix, using the Cholesky factorization computed by CPOTRF. gams d2d1b cpotrs.f for Solves a Hermitian positive definite system of linear equations AX=B, using the Cholesky factorization computed by CPOTRF. gams d2d1b cppcon.f for Estimates the reciprocal of the condition number of a Hermitian positive definite matrix in packed storage, using the Cholesky factorization computed by CPPTRF. gams d2d1b cppequ.f for Computes row and column scalings to equilibrate a Hermitian positive definite matrix in packed storage and reduce its condition number. gams d2d1b cpprfs.f for Improves the computed solution to a Hermitian positive definite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2d1b cpptrf.f for Computes the Cholesky factorization of a Hermitian positive definite matrix in packed storage. gams d2d1b cpptri.f for Computes the inverse of a Hermitian positive definite matrix in packed storage, using the Cholesky factorization computed by CPPTRF. gams d2d1b cpptrs.f for Solves a Hermitian positive definite system of linear equations AX=B, where A is held in packed storage, using the Cholesky factorization computed by CPPTRF. gams d2d1b cptcon.f for Computes the reciprocal of the condition number of a Hermitian positive definite tridiagonal matrix, using the LDL**H factorization computed by CPTTRF. gams d2d2a cpteqr.f for Computes all eigenvalues and eigenvectors of a complex symmetric positive definite tridiagonal matrix, by computing the SVD of its bidiagonal Cholesky factor. gams d4c2a cptrfs.f for Improves the computed solution to a Hermitian positive definite tridiagonal system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2d2a cpttrf.f for Computes the LDL**H factorization of a Hermitian positive definite tridiagonal matrix. gams d2d2a cpttrs.f for Solves a Hermitian positive definite tridiagonal system of linear equations, using the LDL**H factorization computed by CPTTRF. gams d2d2a chbgst.f for Reduces a complex Hermitian-definite banded generalized eigenproblem A x = lambda B x to standard form, where B has been factorized by CPBSTF (Crawford's algorithm). chbtrd.f for Reduces a Hermitian band matrix to real symmetric tridiagonal form by a unitary similarity transformation. gams d4c1b1 cspcon.f for Estimates the reciprocal of the condition number of a complex symmetric indefinite matrix in packed storage, using the factorization computed by CSPTRF. gams d2c1 chpcon.f for Estimates the reciprocal of the condition number of a complex Hermitian indefinite matrix in packed storage, using the factorization computed by CHPTRF. gams d2d1a chpgst.f for Reduces a Hermitian-definite generalized eigenproblem Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, to standard form, where A and B are held in packed storage, and B has been factorized by CPPTRF. gams d4c1c csprfs.f for Improves the computed solution to a complex symmetric indefinite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2c1 chprfs.f for Improves the computed solution to a complex Hermitian indefinite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2d1a chptrd.f for Reduces a Hermitian matrix in packed storage to real symmetric tridiagonal form by a unitary similarity transformation. gams d4c1b1 csptrf.f for Computes the factorization of a complex symmetric-indefinite matrix in packed storage, using the diagonal pivoting method. gams d2c1 chptrf.f for Computes the factorization of a complex Hermitian-indefinite matrix in packed storage, using the diagonal pivoting method. gams d2d1a csptri.f for Computes the inverse of a complex symmetric indefinite matrix in packed storage, using the factorization computed by CSPTRF. gams d2c1 chptri.f for Computes the inverse of a complex Hermitian indefinite matrix in packed storage, using the factorization computed by CHPTRF. gams d2d1a csptrs.f for Solves a complex symmetric indefinite system of linear equations AX=B, where A is held in packed storage, using the factorization computed by CSPTRF. gams d2c1 chptrs.f for Solves a complex Hermitian indefinite system of linear equations AX=B, where A is held in packed storage, using the factorization computed by CHPTRF. gams d2d1a cstedc.f for Computes all eigenvalues and, optionally, eigenvectors of a symmetric tridiagonal matrix using the divide and conquer algorithm. cstein.f for Computes selected eigenvectors of a real symmetric tridiagonal matrix by inverse iteration. gams d4c3 csteqr.f for Computes all eigenvalues and eigenvectors of a real symmetric tridiagonal matrix, using the implicit QL or QR algorithm. gams d4a1, d4a5, d4c2a csycon.f for Estimates the reciprocal of the condition number of a complex symmetric indefinite matrix, using the factorization computed by CSYTRF. gams d2c1 checon.f for Estimates the reciprocal of the condition number of a complex Hermitian indefinite matrix, using the factorization computed by CHETRF. gams d2d1a chegst.f for Reduces a Hermitian-definite generalized eigenproblem Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, to standard form, where B has been factorized by CPOTRF. gams d4c1c csyrfs.f for Improves the computed solution to a complex symmetric indefinite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2c1 cherfs.f for Improves the computed solution to a complex Hermitian indefinite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2d1a chetrd.f for Reduces a Hermitian matrix to real symmetric tridiagonal form by an orthogonal/unitary similarity transformation. gams d4c1b1 csytrf.f for Computes the factorization of a complex symmetric-indefinite matrix, using the diagonal pivoting method. gams d2c1 chetrf.f for Computes the factorization of a complex Hermitian-indefinite matrix, using the diagonal pivoting method. gams d2d1a csytri.f for Computes the inverse of a complex symmetric indefinite matrix, using the factorization computed by CSYTRF. gams d2c1 chetri.f for Computes the inverse of a complex Hermitian indefinite matrix, using the factorization computed by CHETRF. gams d2d1a csytrs.f for Solves a complex symmetric indefinite system of linear equations AX=B, using the factorization computed by CSPTRF. gams d2c1 chetrs.f for Solves a complex Hermitian indefinite system of linear equations AX=B, using the factorization computed by CHPTRF. gams d2d1a ctbcon.f for Estimates the reciprocal of the condition number of a triangular band matrix, in either the 1-norm or the infinity-norm. gams d2c2, d2c3 ctbrfs.f for Provides forward and backward error bounds for the solution of a triangular banded system of linear equations AX=B, A**T X=B or A**H X=B. gams d2c2, d2c3 ctbtrs.f for Solves a triangular banded system of linear equations AX=B, A**T X=B or A**H X=B. gams d2c2, d2c3 ctgevc.f for Computes some or all of the right and/or left generalized eigenvectors of a pair of complex upper triangular matrices. gams d4b4 ctgsja.f for Computes the generalized singular value decomposition of two complex upper triangular (or trapezoidal) matrices as output by CGGSVP. gams d6 ctpcon.f for Estimates the reciprocal of the condition number of a triangular matrix in packed storage, in either the 1-norm or the infinity-norm. gams d2c3 ctprfs.f for Provides forward and backward error bounds for the solution of a triangular system of linear equations AX=B, A**T X=B or A**H X=B, where A is held in packed storage. gams d2c3 ctptri.f for Computes the inverse of a triangular matrix in packed storage. gams d2c3 ctptrs.f for Solves a triangular system of linear equations AX=B, A**T X=B or A**H X=B, where A is held in packed storage. gams d2c3 ctrcon.f for Estimates the reciprocal of the condition number of a triangular matrix, in either the 1-norm or the infinity-norm. gams d2c3 ctrevc.f for Computes left and right eigenvectors of an complex upper triangular matrix. gams d4c3 ctrexc.f for Reorders the Schur factorization of a matrix by a unitary similarity transformation. gams d4c ctrrfs.f for Provides forward and backward error bounds for the solution of a triangular system of linear equations A X=B, A**T X=B or A**H X=B. gams d2c3 ctrsen.f for Reorders the Schur factorization of a matrix in order to find an orthonormal basis of a right invariant subspace corresponding to selected eigenvalues, and returns reciprocal condition numbers (sensitivities) of the average of the cluster of eigenvalues and of the invariant subspace. gams d4c ctrsna.f for Estimates the reciprocal condition numbers (sensitivities) of selected eigenvalues and eigenvectors of a complex upper triangular matrix. gams d4c ctrsyl.f for Solves the Sylvester matrix equation A X +/- X B=C where A and B are complex upper triangular, and may be transposed. gams d8 ctrtri.f for Computes the inverse of a triangular matrix. gams d2c3 ctrtrs.f for Solves a triangular system of linear equations AX=B, A**T X=B or A**H X=B. gams d2c3 ctzrqf.f for Computes an RQ factorization of an upper trapezoidal matrix. gams d5 ----------------------------------------------------------- for double precision complex LAPACK routines path: /netlib/lapack/complex16/ ----------------------------------------------------------- # ------------------------------------------------------- # Available SIMPLE and DIVIDE AND CONQUER DRIVER routines: # ------------------------------------------------------- .depend zdrot.f zdrscl.f zgbtf2.f zgebd2.f zgehd2.f zgelq2.f zgeql2.f zgeqr2.f zgerq2.f zgesv.f for Solves a general system of linear equations AX=B. gams d2c1 zgbsv.f for Solves a general banded system of linear equations AX=B. gams d2c2 zgetf2.f zgtsv.f for Solves a general tridiagonal system of linear equations AX=B. gams d2c2a zhegs2.f zhetd2.f zhetf2.f zlabrd.f zlacgv.f zlacon.f zlacpy.f zlacrm.f zlacrt.f zladiv.f zlaed0.f zlaed7.f zlaed8.f zlaein.f zlaesy.f zlaev2.f zlags2.f zlagtm.f zlahef.f zlahqr.f zlahrd.f zlaic1.f zlangb.f zlange.f zlangt.f zlanhb.f zlanhe.f zlanhp.f zlanhs.f zlanht.f zlansb.f zlansp.f zlansy.f zlantb.f zlantp.f zlantr.f zlapll.f zlapmt.f zlaqgb.f zlaqge.f zlaqhb.f zlaqhe.f zlaqhp.f zlaqsb.f zlaqsp.f zlaqsy.f zlar2v.f zlarf.f zlarfb.f zlarfg.f zlarft.f zlarfx.f zlargv.f zlarnv.f zlartg.f zlartv.f zlascl.f zlaset.f zlasr.f zlassq.f zlaswp.f zlasyf.f zlatbs.f zlatps.f zlatrd.f zlatrs.f zlatzm.f zlauu2.f zlauum.f zpbtf2.f zposv.f for Solves a Hermitian positive definite system of linear equations AX=B. gams d2d1b zpotf2.f zppsv.f for Solves a Hermitian positive definite system of linear equations AX=B, where A is in packed storage. gams d2d1b zpbsv.f for Solves a Hermitian positive definite banded system of linear equations AX=B. gams d2d2 zptsv.f for Solves a Hermitian positive definite tridiagonal system of linear equations AX=B. gams d2d2a zrot.f zspmv.f zspr.f zsymv.f zsyr.f zsysv.f for Solves a complex symmetric indefinite system of linear equations AX=B. gams d2c1 zhesv.f for Solves a complex Hermitian indefinite system of linear equations AX=B. gams d2d1a zspsv.f for Solves a complex symmetric indefinite system of linear equations AX=B, where A is held in packed storage. gams d2c1 zhpsv.f for Solves a complex Hermitian indefinite system of linear equations AX=B, where A is held in packed storage. gams d2d1a zgels.f for Computes the least squares solution to an over-determined system of linear equations, A X=B or A**H X=B, or the minimum norm solution of an under-determined system, where A is a general rectangular matrix of full rank, using a QR or LQ factorization of A. gams d9a1 zgglse.f for Solves the LSE (Constrained Linear Least Squares Problem) using the GRQ (Generalized RQ) factorization gams d9b1 zggglm.f for Solves the GLM (Generalized Linear Regression Model) using the GQR (Generalized QR) factorization zheev.f for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix. gams d4a3 zheevd.f for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a3 zhpev.f for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix in packed storage. gams d4a3 zhpevd.f for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix in packed storage. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a3 zhbev.f for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian band matrix. gams d4a3, d4a6 zhbevd.f for Computes all eigenvalues and, optionally, eigenvectors of a complex Hermitian band matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a3, d4a6 zgees.f for Computes the eigenvalues and Schur factorization of a general matrix, and orders the factorization so that selected eigenvalues are at the top left of the Schur form. gams d4a4 zgeev.f for Computes the eigenvalues and left and right eigenvectors of a general matrix. gams d4a4 zgesvd.f for Computes the singular value decomposition (SVD) of a general rectangular matrix. gams d6 zhegv.f for Computes all eigenvalues and the eigenvectors of a generalized Hermitian-definite generalized eigenproblem, Ax= lambda Bx, ABx= lambda x, or BAx= lambda x. gams d4b3 zhpgv.f for Computes all eigenvalues and eigenvectors of a generalized Hermitian-definite generalized eigenproblem, Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, where A and B are in packed storage. gams d4b3 zhbgv.f for Computes all the eigenvalues, and optionally, the eigenvectors of a complex generalized Hermitian-definite banded eigenproblem, of the form A*x=(lambda)*B*x. A and B are assumed to be Hermitian and banded, and B is also positive definite. zgegs.f for Computes the generalized eigenvalues, Schur form, and left and/or right Schur vectors for a pair of nonsymmetric matrices zgegv.f for Computes the generalized eigenvalues, and left and/or right generalized eigenvectors for a pair of nonsymmetric matrices zggsvd.f for Computes the Generalized Singular Value Decomposition # --------------------------------- # Available EXPERT DRIVER routines: # --------------------------------- zgesvx.f for Solves a general system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2c1 zgbsvx.f for Solves a general banded system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2c2 zgtsvx.f for Solves a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2c2a zposvx.f for Solves a Hermitian positive definite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2d1b zppsvx.f for Solves a Hermitian positive definite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2d1b zpbsvx.f for Solves a Hermitian positive definite banded system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2d2 zptsvx.f for Solves a Hermitian positive definite tridiagonal system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2d2a zsysvx.f for Solves a complex symmetric indefinite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2c1 zhesvx.f for Solves a complex Hermitian indefinite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2d1a zspsvx.f for Solves a complex symmetric indefinite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2c1 zhpsvx.f for Solves a complex Hermitian indefinite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2d1a zgelsx.f for Computes the minimum norm least squares solution to an over- or under-determined system of linear equations A X=B, using a complete orthogonal factorization of A. gams d9a1 zgelss.f for Computes the minimum norm least squares solution to an over- or under-determined system of linear equations A X=B, using the singular value decomposition of A. gams d9a1 zheevx.f for Computes selected eigenvalues and eigenvectors of a Hermitian matrix. gams d4a3 zhpevx.f for Computes selected eigenvalues and eigenvectors of a Hermitian matrix in packed storage. gams d4a3 zhbevx.f for Computes selected eigenvalues and eigenvectors of a Hermitian band matrix. gams d4a3, d4a6 zgeesx.f for Computes the eigenvalues and Schur factorization of a general matrix, orders the factorization so that selected eigenvalues are at the top left of the Schur form, and computes reciprocal condition numbers for the average of the selected eigenvalues, and for the associated right invariant subspace. gams d4a4 zgeevx.f for Computes the eigenvalues and left and right eigenvectors of a general matrix, with preliminary balancing of the matrix, and computes reciprocal condition numbers for the eigenvalues and right eigenvectors. gams d4a4 # --------------------------------- # Available COMPUTATIONAL routines: # --------------------------------- zbdsqr.f for Computes the singular value decomposition (SVD) of a real bidiagonal matrix, using the bidiagonal QR algorithm. gams d6 zgbbrd.f Reduces a complex general band matrix to real upper bidiagonal form by a unitary transformation. zgbcon.f for Estimates the reciprocal of the condition number of a general band matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by CGBTRF. gams d2c2 zgbequ.f for Computes row and column scalings to equilibrate a general band matrix and reduce its condition number. gams d2c2 zgbrfs.f for Improves the computed solution to a general banded system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2c2 zgbtrf.f for Computes an LU factorization of a general band matrix, using partial pivoting with row interchanges. gams d2c2 zgbtrs.f for Solves a general banded system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by CGBTRF. gams d2c2 zgebak.f for Transforms eigenvectors of a balanced matrix to those of the original matrix supplied to CGEBAL. gams d4c4 zgebal.f for Balances a general matrix in order to improve the accuracy of computed eigenvalues. gams d4c1a zgebrd.f for Reduces a general rectangular matrix to real bidiagonal form by an unitary transformation. gams d6 zgecon.f for Estimates the reciprocal of the condition number of a general matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by CGETRF. gams d2c1 zgeequ.f for Computes row and column scalings to equilibrate a general rectangular matrix and reduce its condition number. gams d2c1 zgehrd.f for Reduces a general matrix to upper Hessenberg form by an unitary similarity transformation. gams d4c1b2 zgelqf.f for Computes an LQ factorization of a general rectangular matrix. gams d5 zgeqlf.f for Computes a QL factorization of a general rectangular matrix. gams d5 zgeqpf.f for Computes a QR factorization with column pivoting of a general rectangular matrix. gams d5 zgeqrf.f for Computes a QR factorization of a general rectangular matrix. gams d5 zgerfs.f for Improves the computed solution to a general system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2c1 zgerqf.f for Computes an RQ factorization of a general rectangular matrix. gams d5 zgetrf.f for Computes an LU factorization of a general matrix, using partial pivoting with row interchanges. gams d2c1 zgetri.f for Computes the inverse of a general matrix, using the LU factorization computed by ZGETRF. gams d2c1 zgetrs.f for Solves a general system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by ZGETRF. gams d2c1 zggbak.f for Forms the right or left eigenvectors of the generalized eigenvalue problem by backward transformation on the computed eigenvectors of the balanced pair of matrices output by CGGBAL. zggbal.f for Balances a pair of general complex matrices for the generalized eigenvalue problem A x = lambda B x. zgghrd.f for Reduces a pair of complex matrices to generalized upper Hessenberg form using unitary similarity transformations. zggqrf.f for Computes a generalized QR factorization of a pair of matrices. zggrqf.f for Computes a generalized RQ factorization of a pair of matrices. zggsvp.f for Computes unitary matrices as a preprocessing step for computing the generalized singular value decomposition zgtcon.f for Estimates the reciprocal of the condition number of a general tridiagonal matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by CGTTRF. gams d2c2a zgtrfs.f for Improves the computed solution to a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2c2a zgttrf.f for Computes an LU factorization of a general tridiagonal matrix, using partial pivoting with row interchanges. gams d2c2a zgttrs.f for Solves a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by CGTTRF. gams d2c2a zhgeqz.f for Implements a single-/double-shift version of the QZ method for finding the generalized eigenvalues of the equation det(A - w(i) B) = 0 zhsein.f for Computes specified right and/or left eigenvectors of an upper Hessenberg matrix by inverse iteration. gams d4c3 zhseqr.f for Computes the eigenvalues and Schur factorization of an upper Hessenberg matrix, using the multishift QR algorithm. gams d4c2b zsytf2.f ztrti2.f zung2l.f zung2r.f zungl2.f zungr2.f zunm2l.f zunm2r.f zunml2.f zunmr2.f zupgtr.f for Generates the unitary transformation matrix from a reduction to tridiagonal form determined by CHPTRD. gams d4c1b1 zupmtr.f for Multiplies a general matrix by the unitary transformation matrix from a reduction to tridiagonal form determined by CHPTRD. gams d4c4 zungbr.f for Generates the unitary transformation matrices from a reduction to bidiagonal form determined by CGEBRD. gams d6 zunghr.f for Generates the unitary transformation matrix from a reduction to Hessenberg form determined by CGEHRD. gams d4c1b2 zunglq.f for Generates all or part of the unitary matrix Q from an LQ factorization determined by CGELQF. gams d5 zungql.f for Generates all or part of the unitary matrix Q from a QL factorization determined by CGEQLF. gams d5 zungqr.f for Generates all or part of the unitary matrix Q from a QR factorization determined by CGEQRF. gams d5 zungrq.f for Generates all or part of the unitary matrix Q from an RQ factorization determined by CGERQF. gams d5 zungtr.f for Generates the unitary transformation matrix from a reduction to tridiagonal form determined by CHETRD. gams d4c1b1 zunmbr.f for Multiplies a general matrix by one of the unitary transformation matrices from a reduction to bidiagonal form determined by CGEBRD. gams d6 zunmhr.f for Multiplies a general matrix by the unitary transformation matrix from a reduction to Hessenberg form determined by CGEHRD. gams d4c4 zunmlq.f for Multiplies a general matrix by the unitary matrix from an LQ factorization determined by CGELQF. gams d5 zunmql.f for Multiplies a general matrix by the unitary matrix from a QL factorization determined by CGEQLF. gams d5 zunmqr.f for Multiplies a general matrix by the unitary matrix from a QR factorization determined by CGEQRF. gams d5 zunmrq.f for Multiplies a general matrix by the unitary matrix from an RQ factorization determined by CGERQF. gams d5 zunmtr.f for Multiplies a general matrix by the unitary transformation matrix from a reduction to tridiagonal form determined by CHETRD. gams d4c4 zpbcon.f for Estimates the reciprocal of the condition number of a Hermitian positive definite band matrix, using the Cholesky factorization computed by CPBTRF. gams d2d2 zpbequ.f for Computes row and column scalings to equilibrate a Hermitian positive definite band matrix and reduce its condition number. gams d2d2 zpbrfs.f for Improves the computed solution to a Hermitian positive definite banded system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2d2 zpbstf.f for Computes a split Cholesky factorization of a complex Hermitian positive definite band matrix. zpbtrf.f for Computes the Cholesky factorization of a Hermitian positive definite band matrix. gams d2d2 zpbtrs.f for Solves a Hermitian positive definite banded system of linear equations AX=B, using the Cholesky factorization computed by CPBTRF. gams d2d2 zpocon.f for Estimates the reciprocal of the condition number of a Hermitian positive definite matrix, using the Cholesky factorization computed by CPOTRF. gams d2d1b zpoequ.f for Computes row and column scalings to equilibrate a Hermitian positive definite matrix and reduce its condition number. gams d2d1b zporfs.f for Improves the computed solution to a Hermitian positive definite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2d1b zpotrf.f for Computes the Cholesky factorization of a Hermitian positive definite matrix. gams d2d1b zpotri.f for Computes the inverse of a Hermitian positive definite matrix, using the Cholesky factorization computed by CPOTRF. gams d2d1b zpotrs.f for Solves a Hermitian positive definite system of linear equations AX=B, using the Cholesky factorization computed by CPOTRF. gams d2d1b zppcon.f for Estimates the reciprocal of the condition number of a Hermitian positive definite matrix in packed storage, using the Cholesky factorization computed by CPPTRF. gams d2d1b zppequ.f for Computes row and column scalings to equilibrate a Hermitian positive definite matrix in packed storage and reduce its condition number. gams d2d1b zpprfs.f for Improves the computed solution to a Hermitian positive definite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2d1b zpptrf.f for Computes the Cholesky factorization of a Hermitian positive definite matrix in packed storage. gams d2d1b zpptri.f for Computes the inverse of a Hermitian positive definite matrix in packed storage, using the Cholesky factorization computed by CPPTRF. gams d2d1b zpptrs.f for Solves a Hermitian positive definite system of linear equations AX=B, where A is held in packed storage, using the Cholesky factorization computed by CPPTRF. gams d2d1b zptcon.f for Computes the reciprocal of the condition number of a Hermitian positive definite tridiagonal matrix, using the LDL**H factorization computed by CPTTRF. gams d2d2a zpteqr.f for Computes all eigenvalues and eigenvectors of a complex symmetric positive definite tridiagonal matrix, by computing the SVD of its bidiagonal Cholesky factor. gams d4c2a zptrfs.f for Improves the computed solution to a Hermitian positive definite tridiagonal system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2d2a zpttrf.f for Computes the LDL**H factorization of a Hermitian positive definite tridiagonal matrix. gams d2d2a zpttrs.f for Solves a Hermitian positive definite tridiagonal system of linear equations, using the LDL**H factorization computed by CPTTRF. gams d2d2a zhbgst.f for Reduces a complex Hermitian-definite banded generalized eigenproblem A x = lambda B x to standard form, where B has been factorized by CPBSTF (Crawford's algorithm). zhbtrd.f for Reduces a Hermitian band matrix to real symmetric tridiagonal form by a unitary similarity transformation. gams d4c1b1 zspcon.f for Estimates the reciprocal of the condition number of a complex symmetric indefinite matrix in packed storage, using the factorization computed by CSPTRF. gams d2c1 zhpcon.f for Estimates the reciprocal of the condition number of a complex Hermitian indefinite matrix in packed storage, using the factorization computed by CHPTRF. gams d2d1a zhpgst.f for Reduces a Hermitian-definite generalized eigenproblem Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, to standard form, where A and B are held in packed storage, and B has been factorized by CPPTRF. gams d4c1c zsprfs.f for Improves the computed solution to a complex symmetric indefinite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2c1 zhprfs.f for Improves the computed solution to a complex Hermitian indefinite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2d1a zhptrd.f for Reduces a Hermitian matrix in packed storage to real symmetric tridiagonal form by a unitary similarity transformation. gams d4c1b1 zsptrf.f for Computes the factorization of a complex symmetric-indefinite matrix in packed storage, using the diagonal pivoting method. gams d2c1 zhptrf.f for Computes the factorization of a complex Hermitian-indefinite matrix in packed storage, using the diagonal pivoting method. gams d2d1a zsptri.f for Computes the inverse of a complex symmetric indefinite matrix in packed storage, using the factorization computed by CSPTRF. gams d2c1 zhptri.f for Computes the inverse of a complex Hermitian indefinite matrix in packed storage, using the factorization computed by CHPTRF. gams d2d1a zsptrs.f for Solves a complex symmetric indefinite system of linear equations AX=B, where A is held in packed storage, using the factorization computed by CSPTRF. gams d2c1 zhptrs.f for Solves a complex Hermitian indefinite system of linear equations AX=B, where A is held in packed storage, using the factorization computed by CHPTRF. gams d2d1a zstedc.f for Computes all eigenvalues and, optionally, eigenvectors of a symmetric tridiagonal matrix using the divide and conquer algorithm. zstein.f for Computes selected eigenvectors of a real symmetric tridiagonal matrix by inverse iteration. gams d4c3 zsteqr.f for Computes all eigenvalues and eigenvectors of a real symmetric tridiagonal matrix, using the implicit QL or QR algorithm. gams d4a1, d4a5, d4c2a zsycon.f for Estimates the reciprocal of the condition number of a complex symmetric indefinite matrix, using the factorization computed by CSYTRF. gams d2c1 zhecon.f for Estimates the reciprocal of the condition number of a complex Hermitian indefinite matrix, using the factorization computed by CHETRF. gams d2d1a zhegst.f for Reduces a Hermitian-definite generalized eigenproblem Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, to standard form, where B has been factorized by CPOTRF. gams d4c1c zsyrfs.f for Improves the computed solution to a complex symmetric indefinite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2c1 zherfs.f for Improves the computed solution to a complex Hermitian indefinite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2d1a zhetrd.f for Reduces a Hermitian matrix to real symmetric tridiagonal form by an unitary similarity transformation. gams d4c1b1 zsytrf.f for Computes the factorization of a complex symmetric-indefinite matrix, using the diagonal pivoting method. gams d2c1 zhetrf.f for Computes the factorization of a complex Hermitian-indefinite matrix, using the diagonal pivoting method. gams d2d1a zsytri.f for Computes the inverse of a complex symmetric indefinite matrix, using the factorization computed by CSYTRF. gams d2c1 zhetri.f for Computes the inverse of a complex Hermitian indefinite matrix, using the factorization computed by CHETRF. gams d2d1a zsytrs.f for Solves a complex symmetric indefinite system of linear equations AX=B, using the factorization computed by CSPTRF. gams d2c1 zhetrs.f for Solves a complex Hermitian indefinite system of linear equations AX=B, using the factorization computed by CHPTRF. gams d2d1a ztbcon.f for Estimates the reciprocal of the condition number of a triangular band matrix, in either the 1-norm or the infinity-norm. gams d2c2, d2c3 ztbrfs.f for Provides forward and backward error bounds for the solution of a triangular banded system of linear equations AX=B, A**T X=B or A**H X=B. gams d2c2, d2c3 ztbtrs.f for Solves a triangular banded system of linear equations AX=B, A**T X=B or A**H X=B. gams d2c2, d2c3 ztgevc.f for Computes some or all of the right and/or left generalized eigenvectors of a pair of complex upper triangular matrices. gams d4b4 ztgsja.f for Computes the generalized singular value decomposition of two complex upper triangular (or trapezoidal) matrices as output by CGGSVP. gams d6 ztpcon.f for Estimates the reciprocal of the condition number of a triangular matrix in packed storage, in either the 1-norm or the infinity-norm. gams d2c3 ztprfs.f for Provides forward and backward error bounds for the solution of a triangular system of linear equations AX=B, A**T X=B or A**H X=B, where A is held in packed storage. gams d2c3 ztptri.f for Computes the inverse of a triangular matrix in packed storage. gams d2c3 ztptrs.f for Solves a triangular system of linear equations AX=B, A**T X=B or A**H X=B, where A is held in packed storage. gams d2c3 ztrcon.f for Estimates the reciprocal of the condition number of a triangular matrix, in either the 1-norm or the infinity-norm. gams d2c3 ztrevc.f for Computes left and right eigenvectors of an complex upper triangular matrix. gams d4c3 ztrexc.f for Reorders the Schur factorization of a matrix by a unitary similarity transformation. gams d4c ztrrfs.f for Provides forward and backward error bounds for the solution of a triangular system of linear equations A X=B, A**T X=B or A**H X=B. gams d2c3 ztrsen.f for Reorders the Schur factorization of a matrix in order to find an orthonormal basis of a right invariant subspace corresponding to selected eigenvalues, and returns reciprocal condition numbers (sensitivities) of the average of the cluster of eigenvalues and of the invariant subspace. gams d4c ztrsna.f for Estimates the reciprocal condition numbers (sensitivities) of selected eigenvalues and eigenvectors of a complex upper triangular matrix. gams d4c ztrsyl.f for Solves the Sylvester matrix equation A X +/- X B=C where A and B are complex upper triangular, and may be transposed. gams d8 ztrtri.f for Computes the inverse of a triangular matrix. gams d2c3 ztrtrs.f for Solves a triangular system of linear equations AX=B, A**T X=B or A**H X=B. gams d2c3 ztzrqf.f for Computes an RQ factorization of an upper trapezoidal matrix. gams d5 ----------------------------------------------------------- for double precision real LAPACK routines path: /netlib/lapack/double/ ----------------------------------------------------------- # -------------------------------------------------------- # Available SIMPLE and DIVIDE AND CONQUER DRIVER routines: # -------------------------------------------------------- .depend dgbtf2.f dgebd2.f dgehd2.f dgelq2.f dgeql2.f dgeqr2.f dgerq2.f dgesv.f for Solves a general system of linear equations AX=B. gams d2a1 dgbsv.f for Solves a general banded system of linear equations AX=B. gams d2a2 dgetf2.f dgtsv.f for Solves a general tridiagonal system of linear equations AX=B. gams d2a2a dlabad.f dlabrd.f dlacon.f dlacpy.f dladiv.f dlae2.f dlaebz.f dlaed0.f dlaed1.f dlaed2.f dlaed3.f dlaed4.f dlaed5.f dlaed6.f dlaed7.f dlaed8.f dlaed9.f dlaeda.f dlaein.f dlaev2.f dlaexc.f dlag2.f dlags2.f dlagtf.f dlagtm.f dlagts.f dlahqr.f dlahrd.f dlaic1.f dlaln2.f dlamrg.f dlangb.f dlange.f dlangt.f dlanhs.f dlansb.f dlansp.f dlanst.f dlansy.f dlantb.f dlantp.f dlantr.f dlanv2.f dlapll.f dlapmt.f dlapy2.f dlapy3.f dlaqgb.f dlaqge.f dlaqsb.f dlaqsp.f dlaqsy.f dlaqtr.f dlar2v.f dlarf.f dlarfb.f dlarfg.f dlarft.f dlarfx.f dlargv.f dlarnv.f dlartg.f dlartv.f dlaruv.f dlas2.f dlascl.f dlaset.f dlasq1.f dlasq2.f dlasq3.f dlasq4.f dlasr.f dlasrt.f dlassq.f dlasv2.f dlaswp.f dlasy2.f dlasyf.f dlatbs.f dlatps.f dlatrd.f dlatrs.f dlatzm.f dlauu2.f dlauum.f dorg2l.f dorg2r.f dorgl2.f dorgr2.f dorm2l.f dorm2r.f dorml2.f dormr2.f dpbtf2.f dposv.f for Solves a symmetric positive definite system of linear equations AX=B. gams d2b1b dpotf2.f dppsv.f for Solves a symmetric positive definite system of linear equations AX=B, where A is held in packed storage. gams d2b1b dpbsv.f for Solves a symmetric positive definite banded system of linear equations AX=B. gams d2b2 dptsv.f for Solves a symmetric positive definite tridiagonal system of linear equations AX=B. gams d2b2a drscl.f dsygs2.f dsysv.f for Solves a real symmetric indefinite system of linear equations AX=B. gams d2b1a dspsv.f for Solves a real symmetric indefinite system of linear equations AX=B, where A is held in packed storage. gams d2b1a dgels.f for Computes the least squares solution to an over-determined system of linear equations, A X=B or A**H X=B, or the minimum norm solution of an under-determined system, where A is a general rectangular matrix of full rank, using a QR or LQ factorization of A. gams d9a1 dgglse.f for Solves the LSE (Constrained Linear Least Squares Problem) using the GRQ (Generalized RQ) factorization gams d9b1 dggglm.f for Solves the GLM (Generalized Linear Regression Model) using the GQR (Generalized QR) factorization dsyev.f for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric matrix. gams d4a1 dsyevd.f for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a1 dspev.f for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric matrix in packed storage. gams d4a1 dspevd.f for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric matrix in packed storage. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a1 dsbev.f for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric band matrix. gams d4a1, d4a6 dsbevd.f for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric band matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a1, d4a6 dstev.f for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric tridiagonal matrix. gams d4a1, d4a5 dstevd.f for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric tridiagonal matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a1, d4a5 dgees.f for Computes the eigenvalues and Schur factorization of a general matrix, and orders the factorization so that selected eigenvalues are at the top left of the Schur form. gams d4a2 dgeev.f for Computes the eigenvalues and left and right eigenvectors of a general matrix. gams d4a2 dgesvd.f for Computes the singular value decomposition (SVD) of a general rectangular matrix. gams d6 dsygv.f for Computes all eigenvalues and the eigenvectors of a generalized symmetric-definite generalized eigenproblem, Ax= lambda Bx, ABx= lambda x, or BAx= lambda x. gams d4b1 dspgv.f for Computes all eigenvalues and eigenvectors of a generalized symmetric-definite generalized eigenproblem, Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, where A and B are in packed storage. gams d4b1 dsbgv.f for Computes all the eigenvalues, and optionally, the eigenvectors of a real generalized symmetric-definite banded eigenproblem, of the form A*x=(lambda)*B*x. A and B are assumed to be symmetric and banded, and B is also positive definite. dgegs.f for Computes the generalized eigenvalues, Schur form, and left and/or right Schur vectors for a pair of nonsymmetric matrices dgegv.f for Computes the generalized eigenvalues, and left and/or right generalized eigenvectors for a pair of nonsymmetric matrices dggsvd.f for Computes the Generalized Singular Value Decomposition # --------------------------------- # Available EXPERT DRIVER routines: # --------------------------------- dgesvx.f for Solves a general system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2a1 dgbsvx.f for Solves a general banded system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2a2 dgtsvx.f for Solves a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2a2a dposvx.f for Solves a symmetric positive definite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2b1b dppsvx.f for Solves a symmetric positive definite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2b1b dpbsvx.f for Solves a symmetric positive definite banded system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2b2 dptsvx.f for Solves a symmetric positive definite tridiagonal system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2b2a dsysvx.f for Solves a real symmetric indefinite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2b1a dspsvx.f for Solves a real symmetric indefinite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2b1a dgelsx.f for Computes the minimum norm least squares solution to an over- or under-determined system of linear equations A X=B, using a complete orthogonal factorization of A. gams d9a1 dgelss.f for Computes the minimum norm least squares solution to an over- or under-determined system of linear equations A X=B, using the singular value decomposition of A. gams d9a1 dsyevx.f for Computes selected eigenvalues and eigenvectors of a symmetric matrix. gams d4a1 dspevx.f for Computes selected eigenvalues and eigenvectors of a symmetric matrix in packed storage. gams d4a1 dsbevx.f for Computes selected eigenvalues and eigenvectors of a symmetric band matrix. gams d4a1, d4a6 dstevx.f for Computes selected eigenvalues and eigenvectors of a real symmetric tridiagonal matrix. gams d4a1, d4a5 dgeesx.f for Computes the eigenvalues and Schur factorization of a general matrix, orders the factorization so that selected eigenvalues are at the top left of the Schur form, and computes reciprocal condition numbers for the average of the selected eigenvalues, and for the associated right invariant subspace. gams d4a2 dgeevx.f for Computes the eigenvalues and left and right eigenvectors of a general matrix, with preliminary balancing of the matrix, and computes reciprocal condition numbers for the eigenvalues and right eigenvectors. gams d4a2 # --------------------------------- # Available COMPUTATIONAL routines: # --------------------------------- dbdsqr.f for Computes the singular value decomposition (SVD) of a real bidiagonal matrix, using the bidiagonal QR algorithm. gams d6 ddisna.f for Computes the reciprocal condition numbers for the eigenvectors of a real symmetric or complex Hermitian matrix or for the left or right singular vectors of a general matrix. dgbbrd.f Reduces a general band matrix to real upper bidiagonal form by an orthogonal transformation. dgbcon.f for Estimates the reciprocal of the condition number of a general band matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by DGBTRF. gams d2a2 dgbequ.f for Computes row and column scalings to equilibrate a general band matrix and reduce its condition number. gams d2a2 dgbrfs.f for Improves the computed solution to a general banded system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2a2 dgbtrf.f for Computes an LU factorization of a general band matrix, using partial pivoting with row interchanges. gams d2a2 dgbtrs.f for Solves a general banded system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by DGBTRF. gams d2a2 dgebak.f for Transforms eigenvectors of a balanced matrix to those of the original matrix supplied to DGEBAL. gams d4c4 dgebal.f for Balances a general matrix in order to improve the accuracy of computed eigenvalues. gams d4c1a dgebrd.f for Reduces a general rectangular matrix to real bidiagonal form by an orthogonal transformation. gams d6 dgecon.f for Estimates the reciprocal of the condition number of a general matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by DGETRF. gams d2a1 dgeequ.f for Computes row and column scalings to equilibrate a general rectangular matrix and reduce its condition number. gams d2a1 dgehrd.f for Reduces a general matrix to upper Hessenberg form by an orthogonal similarity transformation. gams d4c1b2 dgelqf.f for Computes an LQ factorization of a general rectangular matrix. gams d5 dgeqlf.f for Computes a QL factorization of a general rectangular matrix. gams d5 dgeqpf.f for Computes a QR factorization with column pivoting of a general rectangular matrix. gams d5 dgeqrf.f for Computes a QR factorization of a general rectangular matrix. gams d5 dgerfs.f for Improves the computed solution to a general system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2a1 dgerqf.f for Computes an RQ factorization of a general rectangular matrix. gams d5 dgetrf.f for Computes an LU factorization of a general matrix, using partial pivoting with row interchanges. gams d2a1 dgetri.f for Computes the inverse of a general matrix, using the LU factorization computed by DGETRF. gams d2a1 dgetrs.f for Solves a general system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by DGETRF. gams d2a1 dggbak.f for Forms the right or left eigenvectors of the generalized eigenvalue problem by backward transformation on the computed eigenvectors of the balanced pair of matrices output by DGGBAL. dggbal.f for Balances a pair of general real matrices for the generalized eigenvalue problem A x = lambda B x. dgghrd.f for Reduces a pair of real matrices to generalized upper Hessenberg form using orthogonal transformations dggqrf.f for Computes a generalized QR factorization of a pair of matrices. dggrqf.f for Computes a generalized RQ factorization of a pair of matrices. dggsvp.f for Computes orthogonal matrices as a preprocessing step for computing the generalized singular value decomposition dgtcon.f for Estimates the reciprocal of the condition number of a general tridiagonal matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by DGTTRF. gams d2a2a dgtrfs.f for Improves the computed solution to a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2a2a dgttrf.f for Computes an LU factorization of a general tridiagonal matrix, using partial pivoting with row interchanges. gams d2a2a dgttrs.f for Solves a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by DGTTRF. gams d2a2a dhgeqz.f for Implements a single-/double-shift version of the QZ method for finding the generalized eigenvalues of the equation det(A - w(i) B) = 0 dhsein.f for Computes specified right and/or left eigenvectors of an upper Hessenberg matrix by inverse iteration. gams d4c3 dhseqr.f for Computes the eigenvalues and Schur factorization of an upper Hessenberg matrix, using the multishift QR algorithm. gams d4c2b dopgtr.f for Generates the orthogonal transformation matrix from a reduction to tridiagonal form determined by SSPTRD. gams d4c1b1 dopmtr.f for Multiplies a general matrix by the orthogonal transformation matrix from a reduction to tridiagonal form determined by DSPTRD. gams d4c4 dorgbr.f for Generates the orthogonal transformation matrices from a reduction to bidiagonal form determined by DGEBRD. gams d6 dorghr.f for Generates the orthogonal transformation matrix from a reduction to Hessenberg form determined by DGEHRD. gams d4c1b2 dorglq.f for Generates all or part of the orthogonal matrix Q from an LQ factorization determined by DGELQF. gams d5 dorgql.f for Generates all or part of the orthogonal matrix Q from a QL factorization determined by DGEQLF. gams d5 dorgqr.f for Generates all or part of the orthogonal matrix Q from a QR factorization determined by DGEQRF. gams d5 dorgrq.f for Generates all or part of the orthogonal matrix Q from an RQ factorization determined by DGERQF. gams d5 dorgtr.f for Generates the orthogonal transformation matrix from a reduction to tridiagonal form determined by DSYTRD. gams d4c1b1 dormbr.f for Multiplies a general matrix by one of the orthogonal transformation matrices from a reduction to bidiagonal form determined by DGEBRD. gams d6 dormhr.f for Multiplies a general matrix by the orthogonal transformation matrix from a reduction to Hessenberg form determined by DGEHRD. gams d4c4 dormlq.f for Multiplies a general matrix by the orthogonal matrix from an LQ factorization determined by DGELQF. gams d5 dormql.f for Multiplies a general matrix by the orthogonal matrix from a QL factorization determined by DGEQLF. gams d5 dormqr.f for Multiplies a general matrix by the orthogonal matrix from a QR factorization determined by DGEQRF. gams d5 dormrq.f for Multiplies a general matrix by the orthogonal matrix from an RQ factorization determined by DGERQF. gams d5 dormtr.f for Multiplies a general matrix by the orthogonal transformation matrix from a reduction to tridiagonal form determined by DSYTRD. gams d4c4 dpbcon.f for Estimates the reciprocal of the condition number of a symmetric positive definite band matrix, using the Cholesky factorization computed by DPBTRF. gams d2b2 dpbequ.f for Computes row and column scalings to equilibrate a symmetric positive definite band matrix and reduce its condition number. gams d2b2 dpbrfs.f for Improves the computed solution to a symmetric positive definite banded system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2b2 dpbstf.f for Computes a split Cholesky factorization of a real symmetric positive definite band matrix. dpbtrf.f for Computes the Cholesky factorization of a symmetric positive definite band matrix. gams d2b2 dpbtrs.f for Solves a symmetric positive definite banded system of linear equations AX=B, using the Cholesky factorization computed by DPBTRF. gams d2b2 dpocon.f for Estimates the reciprocal of the condition number of a symmetric positive definite matrix, using the Cholesky factorization computed by DPOTRF. gams d2b1b dpoequ.f for Computes row and column scalings to equilibrate a symmetric positive definite matrix and reduce its condition number. gams d2b1b dporfs.f for Improves the computed solution to a symmetric positive definite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2b1b dpotrf.f for Computes the Cholesky factorization of a symmetric positive definite matrix. gams d2b1b dpotri.f for Computes the inverse of a symmetric positive definite matrix, using the Cholesky factorization computed by DPOTRF. gams d2b1b dpotrs.f for Solves a symmetric positive definite system of linear equations AX=B, using the Cholesky factorization computed by DPOTRF. gams d2b1b dppcon.f for Estimates the reciprocal of the condition number of a symmetric positive definite matrix in packed storage, using the Cholesky factorization computed by DPPTRF. gams d2b1b dppequ.f for Computes row and column scalings to equilibrate a symmetric positive definite matrix in packed storage and reduce its condition number. gams d2b1b dpprfs.f for Improves the computed solution to a symmetric positive definite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2b1b dpptrf.f for Computes the Cholesky factorization of a symmetric positive definite matrix in packed storage. gams d2b1b dpptri.f for Computes the inverse of a symmetric positive definite matrix in packed storage, using the Cholesky factorization computed by DPPTRF. gams d2b1b dpptrs.f for Solves a symmetric positive definite system of linear equations AX=B, where A is held in packed storage, using the Cholesky factorization computed by DPPTRF. gams d2b1b dptcon.f for Computes the reciprocal of the condition number of a symmetric positive definite tridiagonal matrix, using the LDL**H factorization computed by DPTTRF. gams d2b2a dpteqr.f for Computes all eigenvalues and eigenvectors of a real symmetric positive definite tridiagonal matrix, by computing the SVD of its bidiagonal Cholesky factor. gams d4c2a dptrfs.f for Improves the computed solution to a symmetric positive definite tridiagonal system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2b2a dpttrf.f for Computes the LDL**H factorization of a symmetric positive definite tridiagonal matrix. gams d2b2a dpttrs.f for Solves a symmetric positive definite tridiagonal system of linear equations, using the LDL**H factorization computed by DPTTRF. gams d2b2a dsbgst.f for Reduces a real symmetric-definite banded generalized eigenproblem A x = lambda B x to standard form, where B has been factorized by DPBSTF (Crawford's algorithm). dsbtrd.f for Reduces a symmetric band matrix to real symmetric tridiagonal form by an orthogonal similarity transformation. gams d4c1b1 dspcon.f for Estimates the reciprocal of the condition number of a real symmetric indefinite matrix in packed storage, using the factorization computed by DSPTRF. gams d2b1a dspgst.f for Reduces a symmetric-definite generalized eigenproblem Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, to standard form, where A and B are held in packed storage, and B has been factorized by DPPTRF. gams d4c1c dsprfs.f for Improves the computed solution to a real symmetric indefinite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2b1a dsptrd.f for Reduces a symmetric matrix in packed storage to real symmetric tridiagonal form by an orthogonal similarity transformation. gams d4c1b1 dsptrf.f for Computes the factorization of a real symmetric-indefinite matrix in packed storage, using the diagonal pivoting method. gams d2b1a dsptri.f for Computes the inverse of a real symmetric indefinite matrix in packed storage, using the factorization computed by DSPTRF. gams d2b1a dsptrs.f for Solves a real symmetric indefinite system of linear equations AX=B, where A is held in packed storage, using the factorization computed by DSPTRF. gams d2b1a dstebz.f for Computes selected eigenvalues of a real symmetric tridiagonal matrix by bisection. gams d4c2a dstedc.f for Computes all eigenvalues and, optionally, eigenvectors of a symmetric tridiagonal matrix using the divide and conquer algorithm. dstein.f for Computes selected eigenvectors of a real symmetric tridiagonal matrix by inverse iteration. gams d4c3 dsteqr.f for Computes all eigenvalues and eigenvectors of a real symmetric tridiagonal matrix, using the implicit QL or QR algorithm. gams d4a1, d4a5, d4c2a dsterf.f for Computes all eigenvalues of a real symmetric tridiagonal matrix, using a root-free variant of the QL or QR algorithm. gams d4c2a dsycon.f for Estimates the reciprocal of the condition number of a real symmetric indefinite matrix, using the factorization computed by DSYTRF. gams d2b1a dsygst.f for Reduces a symmetric-definite generalized eigenproblem Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, to standard form, where B has been factorized by DPOTRF. gams d4c1c dsyrfs.f for Improves the computed solution to a real symmetric indefinite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2b1a dsytd2.f dsytf2.f dsytrd.f for Reduces a symmetric matrix to real symmetric tridiagonal form by an orthogonal similarity transformation. gams d4c1b1 dsytrf.f for Computes the factorization of a real symmetric-indefinite matrix, using the diagonal pivoting method. gams d2b1a dsytri.f for Computes the inverse of a real symmetric indefinite matrix, using the factorization computed by DSYTRF. gams d2b1a dsytrs.f for Solves a real symmetric indefinite system of linear equations AX=B, using the factorization computed by DSPTRF. gams d2b1a dtbcon.f for Estimates the reciprocal of the condition number of a triangular band matrix, in either the 1-norm or the infinity-norm. gams d2a2, d2a3 dtbrfs.f for Provides forward and backward error bounds for the solution of a triangular banded system of linear equations AX=B, A**T X=B or A**H X=B. gams d2a2, d2a3 dtbtrs.f for Solves a triangular banded system of linear equations AX=B, A**T X=B or A**H X=B. gams d2a2, d2a3 dtgevc.f for Computes some or all of the right and/or left generalized eigenvectors of a pair of upper triangular matrices. gams d4b2 dtgsja.f for Computes the generalized singular value decomposition of two real upper triangular (or trapezoidal) matrices as output by DGGSVP. gams d6 dtpcon.f for Estimates the reciprocal of the condition number of a triangular matrix in packed storage, in either the 1-norm or the infinity-norm. gams d2a3 dtprfs.f for Provides forward and backward error bounds for the solution of a triangular system of linear equations AX=B, A**T X=B or A**H X=B, where A is held in packed storage. gams d2a3 dtptri.f for Computes the inverse of a triangular matrix in packed storage. gams d2a3 dtptrs.f for Solves a triangular system of linear equations AX=B, A**T X=B or A**H X=B, where A is held in packed storage. gams d2a3 dtrcon.f for Estimates the reciprocal of the condition number of a triangular matrix, in either the 1-norm or the infinity-norm. gams d2a3 dtrevc.f for Computes some or all of the right and/or left eigenvectors of an upper quasi-triangular matrix. gams d4c3 dtrexc.f for Reorders the Schur factorization of a matrix by an orthogonal similarity transformation. gams d4c dtrrfs.f for Provides forward and backward error bounds for the solution of a triangular system of linear equations A X=B, A**T X=B or A**H X=B. gams d2a3 dtrsen.f for Reorders the Schur factorization of a matrix in order to find an orthonormal basis of a right invariant subspace corresponding to selected eigenvalues, and returns reciprocal condition numbers (sensitivities) of the average of the cluster of eigenvalues and of the invariant subspace. gams d4c dtrsna.f for Estimates the reciprocal condition numbers (sensitivities) of selected eigenvalues and eigenvectors of an upper quasi-triangular matrix. gams d4c dtrsyl.f for Solves the Sylvester matrix equation A X +/- X B=C where A and B are upper quasi-triangular, and may be transposed. gams d8 dtrti2.f dtrtri.f for Computes the inverse of a triangular matrix. gams d2a3 dtrtrs.f for Solves a triangular system of linear equations AX=B, A**T X=B or A**H X=B. gams d2a3 dtzrqf.f for Computes an RQ factorization of an upper trapezoidal matrix. gams d5 dzsum1.f ----------------------------------------------------------- for Subdirectory containing CCI (Call Conversion path: /netlib/lapack/essl/ ----------------------------------------------------------- cci/ for (FOR ANON FTP, email via NETLIB, or XNETLIB USERS) CCI (Call Conversion Interface) for LAPACK/ESSL users. Refer to LAWN82 for more information. (this file has been tar; compress; uuencode) size 69224 bytes lang Fortran ----------------------------------------------------------- for (FOR ANON FTP, email via NETLIB, or XNETLIB path: /netlib/lapack/essl/cci/ ----------------------------------------------------------- LAPACK/ ----------------------------------------------------------- path: /netlib/lapack/essl/cci/LAPACK/ ----------------------------------------------------------- CCI_NOTES CCI_QUICK_INSTALL CCI_README SRC/ make.inc ----------------------------------------------------------- path: /netlib/lapack/essl/cci/LAPACK/SRC/ ----------------------------------------------------------- cgetrf.f cgetrs.f cpotrf.f cpotrs.f dgetrf.f dgetri.f dgetrs.f dpbtrf.f dpotrf.f dpotri.f dpotrs.f dpptrf.f dpptri.f dtptri.f dtrtri.f sgetrf.f sgetri.f sgetrs.f spbtrf.f spotrf.f spotri.f spotrs.f spptrf.f spptri.f stptri.f strtri.f zgetrf.f zgetrs.f zpotrf.f zpotrs.f ----------------------------------------------------------- for (FOR NON EMAIL USERS ONLY) This is the PC path: /netlib/lapack/lapack-pc/ ----------------------------------------------------------- LAPACK/ ----------------------------------------------------------- path: /netlib/lapack/lapack-pc/LAPACK/ ----------------------------------------------------------- BLAS/ INSTALL/ Makefile README SRC/ TESTING/ TIMING/ latape make.inc ----------------------------------------------------------- path: /netlib/lapack/lapack-pc/LAPACK/BLAS/ ----------------------------------------------------------- SRC/ TESTING/ cblat2.in cblat3.in dblat2.in dblat3.in sblat2.in sblat3.in zblat2.in zblat3.in ----------------------------------------------------------- path: /netlib/lapack/lapack-pc/LAPACK/BLAS/SRC/ ----------------------------------------------------------- Makefile caxpy.f ccopy.f cdotc.f cdotu.f cgbmv.f cgemm.f cgemv.f cgerc.f cgeru.f chbmv.f chemm.f chemv.f cher.f cher2.f cher2k.f cherk.f chpmv.f chpr.f chpr2.f crotg.f cscal.f csscal.f cswap.f csymm.f csyr2k.f csyrk.f ctbmv.f ctbsv.f ctpmv.f ctpsv.f ctrmm.f ctrmv.f ctrsm.f ctrsv.f dasum.f daxpy.f dcabs1.f dcopy.f ddot.f dgbmv.f dgemm.f dgemv.f dger.f dnrm2.f drot.f drotg.f dsbmv.f dscal.f dspmv.f dspr.f dspr2.f dswap.f dsymm.f dsymv.f dsyr.f dsyr2.f dsyr2k.f dsyrk.f dtbmv.f dtbsv.f dtpmv.f dtpsv.f dtrmm.f dtrmv.f dtrsm.f dtrsv.f dzasum.f dznrm2.f icamax.f idamax.f isamax.f izamax.f lsame.f sasum.f saxpy.f scasum.f scnrm2.f scopy.f sdot.f sgbmv.f sgemm.f sgemv.f sger.f snrm2.f srot.f srotg.f ssbmv.f sscal.f sspmv.f sspr.f sspr2.f sswap.f ssymm.f ssymv.f ssyr.f ssyr2.f ssyr2k.f ssyrk.f stbmv.f stbsv.f stpmv.f stpsv.f strmm.f strmv.f strsm.f strsv.f xerbla.f zaxpy.f zcopy.f zdotc.f zdotu.f zdscal.f zgbmv.f zgemm.f zgemv.f zgerc.f zgeru.f zhbmv.f zhemm.f zhemv.f zher.f zher2.f zher2k.f zherk.f zhpmv.f zhpr.f zhpr2.f zrotg.f zscal.f zswap.f zsymm.f zsyr2k.f zsyrk.f ztbmv.f ztbsv.f ztpmv.f ztpsv.f ztrmm.f ztrmv.f ztrsm.f ztrsv.f ----------------------------------------------------------- path: /netlib/lapack/lapack-pc/LAPACK/BLAS/TESTING/ ----------------------------------------------------------- Makeblat1 Makeblat2 Makeblat3 cblat1.f cblat2.f cblat3.f dblat1.f dblat2.f dblat3.f sblat1.f sblat2.f sblat3.f zblat1.f zblat2.f zblat3.f ----------------------------------------------------------- path: /netlib/lapack/lapack-pc/LAPACK/INSTALL/ ----------------------------------------------------------- Makefile dlamch.f dlamchtst.f dsecnd.f dsecndtst.f lawn81.ps lawn81.tex lsame.f lsametst.f org2.ps psfig.tex second.f secondtst.f slamch.f slamchtst.f ----------------------------------------------------------- path: /netlib/lapack/lapack-pc/LAPACK/SRC/ ----------------------------------------------------------- Makefile cbdsqr.f cgbbrd.f cgbcon.f cgbequ.f cgbrfs.f cgbsv.f cgbsvx.f cgbtf2.f cgbtrf.f cgbtrs.f cgebak.f cgebal.f cgebd2.f cgebrd.f cgecon.f cgeequ.f cgees.f cgeesx.f cgeev.f cgeevx.f cgegs.f cgegv.f cgehd2.f cgehrd.f cgelq2.f cgelqf.f cgels.f cgelss.f cgelsx.f cgeql2.f cgeqlf.f cgeqpf.f cgeqr2.f cgeqrf.f cgerfs.f cgerq2.f cgerqf.f cgesv.f cgesvd.f cgesvx.f cgetf2.f cgetrf.f cgetri.f cgetrs.f cggbak.f cggbal.f cggglm.f cgghrd.f cgglse.f cggqrf.f cggrqf.f cggsvd.f cggsvp.f cgtcon.f cgtrfs.f cgtsv.f cgtsvx.f cgttrf.f cgttrs.f chbev.f chbevd.f chbevx.f chbgst.f chbgv.f chbtrd.f checon.f cheev.f cheevd.f cheevx.f chegs2.f chegst.f chegv.f cherfs.f chesv.f chesvx.f chetd2.f chetf2.f chetrd.f chetrf.f chetri.f chetrs.f chgeqz.f chpcon.f chpev.f chpevd.f chpevx.f chpgst.f chpgv.f chprfs.f chpsv.f chpsvx.f chptrd.f chptrf.f chptri.f chptrs.f chsein.f chseqr.f clabrd.f clacgv.f clacon.f clacpy.f clacrm.f clacrt.f cladiv.f claed0.f claed7.f claed8.f claein.f claesy.f claev2.f clags2.f clagtm.f clahef.f clahqr.f clahrd.f claic1.f clangb.f clange.f clangt.f clanhb.f clanhe.f clanhp.f clanhs.f clanht.f clansb.f clansp.f clansy.f clantb.f clantp.f clantr.f clapll.f clapmt.f claqgb.f claqge.f claqhb.f claqhe.f claqhp.f claqsb.f claqsp.f claqsy.f clar2v.f clarf.f clarfb.f clarfg.f clarft.f clarfx.f clargv.f clarnv.f clartg.f clartv.f clascl.f claset.f clasr.f classq.f claswp.f clasyf.f clatbs.f clatps.f clatrd.f clatrs.f clatzm.f clauu2.f clauum.f cpbcon.f cpbequ.f cpbrfs.f cpbstf.f cpbsv.f cpbsvx.f cpbtf2.f cpbtrf.f cpbtrs.f cpocon.f cpoequ.f cporfs.f cposv.f cposvx.f cpotf2.f cpotrf.f cpotri.f cpotrs.f cppcon.f cppequ.f cpprfs.f cppsv.f cppsvx.f cpptrf.f cpptri.f cpptrs.f cptcon.f cpteqr.f cptrfs.f cptsv.f cptsvx.f cpttrf.f cpttrs.f crot.f cspcon.f cspmv.f cspr.f csprfs.f cspsv.f cspsvx.f csptrf.f csptri.f csptrs.f csrot.f csrscl.f cstedc.f cstein.f csteqr.f csycon.f csymv.f csyr.f csyrfs.f csysv.f csysvx.f csytf2.f csytrf.f csytri.f csytrs.f ctbcon.f ctbrfs.f ctbtrs.f ctgevc.f ctgsja.f ctpcon.f ctprfs.f ctptri.f ctptrs.f ctrcon.f ctrevc.f ctrexc.f ctrrfs.f ctrsen.f ctrsna.f ctrsyl.f ctrti2.f ctrtri.f ctrtrs.f ctzrqf.f cung2l.f cung2r.f cungbr.f cunghr.f cungl2.f cunglq.f cungql.f cungqr.f cungr2.f cungrq.f cungtr.f cunm2l.f cunm2r.f cunmbr.f cunmhr.f cunml2.f cunmlq.f cunmql.f cunmqr.f cunmr2.f cunmrq.f cunmtr.f cupgtr.f cupmtr.f dbdsqr.f ddisna.f dgbbrd.f dgbcon.f dgbequ.f dgbrfs.f dgbsv.f dgbsvx.f dgbtf2.f dgbtrf.f dgbtrs.f dgebak.f dgebal.f dgebd2.f dgebrd.f dgecon.f dgeequ.f dgees.f dgeesx.f dgeev.f dgeevx.f dgegs.f dgegv.f dgehd2.f dgehrd.f dgelq2.f dgelqf.f dgels.f dgelss.f dgelsx.f dgeql2.f dgeqlf.f dgeqpf.f dgeqr2.f dgeqrf.f dgerfs.f dgerq2.f dgerqf.f dgesv.f dgesvd.f dgesvx.f dgetf2.f dgetrf.f dgetri.f dgetrs.f dggbak.f dggbal.f dggglm.f dgghrd.f dgglse.f dggqrf.f dggrqf.f dggsvd.f dggsvp.f dgtcon.f dgtrfs.f dgtsv.f dgtsvx.f dgttrf.f dgttrs.f dhgeqz.f dhsein.f dhseqr.f dlabad.f dlabrd.f dlacon.f dlacpy.f dladiv.f dlae2.f dlaebz.f dlaed0.f dlaed1.f dlaed2.f dlaed3.f dlaed4.f dlaed5.f dlaed6.f dlaed7.f dlaed8.f dlaed9.f dlaeda.f dlaein.f dlaev2.f dlaexc.f dlag2.f dlags2.f dlagtf.f dlagtm.f dlagts.f dlahqr.f dlahrd.f dlaic1.f dlaln2.f dlamch.f dlamrg.f dlangb.f dlange.f dlangt.f dlanhs.f dlansb.f dlansp.f dlanst.f dlansy.f dlantb.f dlantp.f dlantr.f dlanv2.f dlapll.f dlapmt.f dlapy2.f dlapy3.f dlaqgb.f dlaqge.f dlaqsb.f dlaqsp.f dlaqsy.f dlaqtr.f dlar2v.f dlarf.f dlarfb.f dlarfg.f dlarft.f dlarfx.f dlargv.f dlarnv.f dlartg.f dlartv.f dlaruv.f dlas2.f dlascl.f dlaset.f dlasq1.f dlasq2.f dlasq3.f dlasq4.f dlasr.f dlasrt.f dlassq.f dlasv2.f dlaswp.f dlasy2.f dlasyf.f dlatbs.f dlatps.f dlatrd.f dlatrs.f dlatzm.f dlauu2.f dlauum.f dopgtr.f dopmtr.f dorg2l.f dorg2r.f dorgbr.f dorghr.f dorgl2.f dorglq.f dorgql.f dorgqr.f dorgr2.f dorgrq.f dorgtr.f dorm2l.f dorm2r.f dormbr.f dormhr.f dorml2.f dormlq.f dormql.f dormqr.f dormr2.f dormrq.f dormtr.f dpbcon.f dpbequ.f dpbrfs.f dpbstf.f dpbsv.f dpbsvx.f dpbtf2.f dpbtrf.f dpbtrs.f dpocon.f dpoequ.f dporfs.f dposv.f dposvx.f dpotf2.f dpotrf.f dpotri.f dpotrs.f dppcon.f dppequ.f dpprfs.f dppsv.f dppsvx.f dpptrf.f dpptri.f dpptrs.f dptcon.f dpteqr.f dptrfs.f dptsv.f dptsvx.f dpttrf.f dpttrs.f drscl.f dsbev.f dsbevd.f dsbevx.f dsbgst.f dsbgv.f dsbtrd.f dsecnd.f dspcon.f dspev.f dspevd.f dspevx.f dspgst.f dspgv.f dsprfs.f dspsv.f dspsvx.f dsptrd.f dsptrf.f dsptri.f dsptrs.f dstebz.f dstedc.f dstein.f dsteqr.f dsterf.f dstev.f dstevd.f dstevx.f dsycon.f dsyev.f dsyevd.f dsyevx.f dsygs2.f dsygst.f dsygv.f dsyrfs.f dsysv.f dsysvx.f dsytd2.f dsytf2.f dsytrd.f dsytrf.f dsytri.f dsytrs.f dtbcon.f dtbrfs.f dtbtrs.f dtgevc.f dtgsja.f dtpcon.f dtprfs.f dtptri.f dtptrs.f dtrcon.f dtrevc.f dtrexc.f dtrrfs.f dtrsen.f dtrsna.f dtrsyl.f dtrti2.f dtrtri.f dtrtrs.f dtzrqf.f dzsum1.f icmax1.f ilaenv.f izmax1.f lsame.f lsamen.f sbdsqr.f scsum1.f sdisna.f second.f sgbbrd.f sgbcon.f sgbequ.f sgbrfs.f sgbsv.f sgbsvx.f sgbtf2.f sgbtrf.f sgbtrs.f sgebak.f sgebal.f sgebd2.f sgebrd.f sgecon.f sgeequ.f sgees.f sgeesx.f sgeev.f sgeevx.f sgegs.f sgegv.f sgehd2.f sgehrd.f sgelq2.f sgelqf.f sgels.f sgelss.f sgelsx.f sgeql2.f sgeqlf.f sgeqpf.f sgeqr2.f sgeqrf.f sgerfs.f sgerq2.f sgerqf.f sgesv.f sgesvd.f sgesvx.f sgetf2.f sgetrf.f sgetri.f sgetrs.f sggbak.f sggbal.f sggglm.f sgghrd.f sgglse.f sggqrf.f sggrqf.f sggsvd.f sggsvp.f sgtcon.f sgtrfs.f sgtsv.f sgtsvx.f sgttrf.f sgttrs.f shgeqz.f shsein.f shseqr.f slabad.f slabrd.f slacon.f slacpy.f sladiv.f slae2.f slaebz.f slaed0.f slaed1.f slaed2.f slaed3.f slaed4.f slaed5.f slaed6.f slaed7.f slaed8.f slaed9.f slaeda.f slaein.f slaev2.f slaexc.f slag2.f slags2.f slagtf.f slagtm.f slagts.f slahqr.f slahrd.f slaic1.f slaln2.f slamch.f slamrg.f slangb.f slange.f slangt.f slanhs.f slansb.f slansp.f slanst.f slansy.f slantb.f slantp.f slantr.f slanv2.f slapll.f slapmt.f slapy2.f slapy3.f slaqgb.f slaqge.f slaqsb.f slaqsp.f slaqsy.f slaqtr.f slar2v.f slarf.f slarfb.f slarfg.f slarft.f slarfx.f slargv.f slarnv.f slartg.f slartv.f slaruv.f slas2.f slascl.f slaset.f slasq1.f slasq2.f slasq3.f slasq4.f slasr.f slasrt.f slassq.f slasv2.f slaswp.f slasy2.f slasyf.f slatbs.f slatps.f slatrd.f slatrs.f slatzm.f slauu2.f slauum.f sopgtr.f sopmtr.f sorg2l.f sorg2r.f sorgbr.f sorghr.f sorgl2.f sorglq.f sorgql.f sorgqr.f sorgr2.f sorgrq.f sorgtr.f sorm2l.f sorm2r.f sormbr.f sormhr.f sorml2.f sormlq.f sormql.f sormqr.f sormr2.f sormrq.f sormtr.f spbcon.f spbequ.f spbrfs.f spbstf.f spbsv.f spbsvx.f spbtf2.f spbtrf.f spbtrs.f spocon.f spoequ.f sporfs.f sposv.f sposvx.f spotf2.f spotrf.f spotri.f spotrs.f sppcon.f sppequ.f spprfs.f sppsv.f sppsvx.f spptrf.f spptri.f spptrs.f sptcon.f spteqr.f sptrfs.f sptsv.f sptsvx.f spttrf.f spttrs.f srscl.f ssbev.f ssbevd.f ssbevx.f ssbgst.f ssbgv.f ssbtrd.f sspcon.f sspev.f sspevd.f sspevx.f sspgst.f sspgv.f ssprfs.f sspsv.f sspsvx.f ssptrd.f ssptrf.f ssptri.f ssptrs.f sstebz.f sstedc.f sstein.f ssteqr.f ssterf.f sstev.f sstevd.f sstevx.f ssycon.f ssyev.f ssyevd.f ssyevx.f ssygs2.f ssygst.f ssygv.f ssyrfs.f ssysv.f ssysvx.f ssytd2.f ssytf2.f ssytrd.f ssytrf.f ssytri.f ssytrs.f stbcon.f stbrfs.f stbtrs.f stgevc.f stgsja.f stpcon.f stprfs.f stptri.f stptrs.f strcon.f strevc.f strexc.f strrfs.f strsen.f strsna.f strsyl.f strti2.f strtri.f strtrs.f stzrqf.f xerbla.f zbdsqr.f zdrot.f zdrscl.f zgbbrd.f zgbcon.f zgbequ.f zgbrfs.f zgbsv.f zgbsvx.f zgbtf2.f zgbtrf.f zgbtrs.f zgebak.f zgebal.f zgebd2.f zgebrd.f zgecon.f zgeequ.f zgees.f zgeesx.f zgeev.f zgeevx.f zgegs.f zgegv.f zgehd2.f zgehrd.f zgelq2.f zgelqf.f zgels.f zgelss.f zgelsx.f zgeql2.f zgeqlf.f zgeqpf.f zgeqr2.f zgeqrf.f zgerfs.f zgerq2.f zgerqf.f zgesv.f zgesvd.f zgesvx.f zgetf2.f zgetrf.f zgetri.f zgetrs.f zggbak.f zggbal.f zggglm.f zgghrd.f zgglse.f zggqrf.f zggrqf.f zggsvd.f zggsvp.f zgtcon.f zgtrfs.f zgtsv.f zgtsvx.f zgttrf.f zgttrs.f zhbev.f zhbevd.f zhbevx.f zhbgst.f zhbgv.f zhbtrd.f zhecon.f zheev.f zheevd.f zheevx.f zhegs2.f zhegst.f zhegv.f zherfs.f zhesv.f zhesvx.f zhetd2.f zhetf2.f zhetrd.f zhetrf.f zhetri.f zhetrs.f zhgeqz.f zhpcon.f zhpev.f zhpevd.f zhpevx.f zhpgst.f zhpgv.f zhprfs.f zhpsv.f zhpsvx.f zhptrd.f zhptrf.f zhptri.f zhptrs.f zhsein.f zhseqr.f zlabrd.f zlacgv.f zlacon.f zlacpy.f zlacrm.f zlacrt.f zladiv.f zlaed0.f zlaed7.f zlaed8.f zlaein.f zlaesy.f zlaev2.f zlags2.f zlagtm.f zlahef.f zlahqr.f zlahrd.f zlaic1.f zlangb.f zlange.f zlangt.f zlanhb.f zlanhe.f zlanhp.f zlanhs.f zlanht.f zlansb.f zlansp.f zlansy.f zlantb.f zlantp.f zlantr.f zlapll.f zlapmt.f zlaqgb.f zlaqge.f zlaqhb.f zlaqhe.f zlaqhp.f zlaqsb.f zlaqsp.f zlaqsy.f zlar2v.f zlarf.f zlarfb.f zlarfg.f zlarft.f zlarfx.f zlargv.f zlarnv.f zlartg.f zlartv.f zlascl.f zlaset.f zlasr.f zlassq.f zlaswp.f zlasyf.f zlatbs.f zlatps.f zlatrd.f zlatrs.f zlatzm.f zlauu2.f zlauum.f zpbcon.f zpbequ.f zpbrfs.f zpbstf.f zpbsv.f zpbsvx.f zpbtf2.f zpbtrf.f zpbtrs.f zpocon.f zpoequ.f zporfs.f zposv.f zposvx.f zpotf2.f zpotrf.f zpotri.f zpotrs.f zppcon.f zppequ.f zpprfs.f zppsv.f zppsvx.f zpptrf.f zpptri.f zpptrs.f zptcon.f zpteqr.f zptrfs.f zptsv.f zptsvx.f zpttrf.f zpttrs.f zrot.f zspcon.f zspmv.f zspr.f zsprfs.f zspsv.f zspsvx.f zsptrf.f zsptri.f zsptrs.f zstedc.f zstein.f zsteqr.f zsycon.f zsymv.f zsyr.f zsyrfs.f zsysv.f zsysvx.f zsytf2.f zsytrf.f zsytri.f zsytrs.f ztbcon.f ztbrfs.f ztbtrs.f ztgevc.f ztgsja.f ztpcon.f ztprfs.f ztptri.f ztptrs.f ztrcon.f ztrevc.f ztrexc.f ztrrfs.f ztrsen.f ztrsna.f ztrsyl.f ztrti2.f ztrtri.f ztrtrs.f ztzrqf.f zung2l.f zung2r.f zungbr.f zunghr.f zungl2.f zunglq.f zungql.f zungqr.f zungr2.f zungrq.f zungtr.f zunm2l.f zunm2r.f zunmbr.f zunmhr.f zunml2.f zunmlq.f zunmql.f zunmqr.f zunmr2.f zunmrq.f zunmtr.f zupgtr.f zupmtr.f ----------------------------------------------------------- path: /netlib/lapack/lapack-pc/LAPACK/TESTING/ ----------------------------------------------------------- EIG/ LIN/ MATGEN/ Makefile Makefile.sgi cbak.in cbal.in cbb.in cec.in ced.in cgbak.in cgbal.in cgg.in csb.in csg.in ctest.in dbak.in dbal.in dbb.in dec.in ded.in dgbak.in dgbal.in dgg.in dsb.in dsg.in dtest.in glm.in gqr.in gsv.in lse.in nep.in sbak.in sbal.in sbb.in sec.in sed.in sep.in sgbak.in sgbal.in sgg.in ssb.in ssg.in stest.in svd.in zbak.in zbal.in zbb.in zec.in zed.in zgbak.in zgbal.in zgg.in zsb.in zsg.in ztest.in ----------------------------------------------------------- path: /netlib/lapack/lapack-pc/LAPACK/TESTING/EIG/ ----------------------------------------------------------- Makefile alahdg.f alareq.f alarqg.f alasmg.f alasum.f alasvm.f cbdt01.f cbdt02.f cbdt03.f cchkbb.f cchkbd.f cchkbk.f cchkbl.f cchkec.f cchkee.f cchkgg.f cchkgk.f cchkgl.f cchkhb.f cchkhs.f cchkst.f cckglm.f cckgqr.f cckgsv.f ccklse.f cdrvbd.f cdrves.f cdrvev.f cdrvgg.f cdrvsg.f cdrvst.f cdrvsx.f cdrvvx.f cerrbd.f cerrec.f cerred.f cerrgg.f cerrhs.f cerrst.f cget02.f cget10.f cget22.f cget23.f cget24.f cget35.f cget36.f cget37.f cget38.f cget51.f cget52.f cglmts.f cgqrts.f cgrqts.f cgsvts.f chbt21.f chet21.f chet22.f chkxer.f chpt21.f chst01.f clarfy.f clarhs.f clatm4.f clsets.f csbmv.f csgt01.f cslect.f cstt21.f cunt01.f cunt03.f dbdt01.f dbdt02.f dbdt03.f dchkbb.f dchkbd.f dchkbk.f dchkbl.f dchkec.f dchkee.f dchkgg.f dchkgk.f dchkgl.f dchkhs.f dchksb.f dchkst.f dckglm.f dckgqr.f dckgsv.f dcklse.f ddrvbd.f ddrves.f ddrvev.f ddrvgg.f ddrvsg.f ddrvst.f ddrvsx.f ddrvvx.f derrbd.f derrec.f derred.f derrgg.f derrhs.f derrst.f dget02.f dget10.f dget22.f dget23.f dget24.f dget31.f dget32.f dget33.f dget34.f dget35.f dget36.f dget37.f dget38.f dget39.f dget51.f dget52.f dget53.f dglmts.f dgqrts.f dgrqts.f dgsvts.f dhst01.f dlafts.f dlahd2.f dlarfy.f dlarhs.f dlasum.f dlatb9.f dlatm4.f dlsets.f dort01.f dort03.f dsbt21.f dsgt01.f dslect.f dspt21.f dstech.f dstect.f dstt21.f dstt22.f dsvdch.f dsvdct.f dsxt1.f dsyt21.f dsyt22.f ilaenv.f sbdt01.f sbdt02.f sbdt03.f schkbb.f schkbd.f schkbk.f schkbl.f schkec.f schkee.f schkgg.f schkgk.f schkgl.f schkhs.f schksb.f schkst.f sckglm.f sckgqr.f sckgsv.f scklse.f sdrvbd.f sdrves.f sdrvev.f sdrvgg.f sdrvsg.f sdrvst.f sdrvsx.f sdrvvx.f serrbd.f serrec.f serred.f serrgg.f serrhs.f serrst.f sget02.f sget10.f sget22.f sget23.f sget24.f sget31.f sget32.f sget33.f sget34.f sget35.f sget36.f sget37.f sget38.f sget39.f sget51.f sget52.f sget53.f sglmts.f sgqrts.f sgrqts.f sgsvts.f shst01.f slafts.f slahd2.f slarfy.f slarhs.f slasum.f slatb9.f slatm4.f slsets.f sort01.f sort03.f ssbt21.f ssgt01.f sslect.f sspt21.f sstech.f sstect.f sstt21.f sstt22.f ssvdch.f ssvdct.f ssxt1.f ssyt21.f ssyt22.f xerbla.f xlaenv.f zbdt01.f zbdt02.f zbdt03.f zchkbb.f zchkbd.f zchkbk.f zchkbl.f zchkec.f zchkee.f zchkgg.f zchkgk.f zchkgl.f zchkhb.f zchkhs.f zchkst.f zckglm.f zckgqr.f zckgsv.f zcklse.f zdrvbd.f zdrves.f zdrvev.f zdrvgg.f zdrvsg.f zdrvst.f zdrvsx.f zdrvvx.f zerrbd.f zerrec.f zerred.f zerrgg.f zerrhs.f zerrst.f zget02.f zget10.f zget22.f zget23.f zget24.f zget35.f zget36.f zget37.f zget38.f zget51.f zget52.f zglmts.f zgqrts.f zgrqts.f zgsvts.f zhbt21.f zhet21.f zhet22.f zhpt21.f zhst01.f zlarfy.f zlarhs.f zlatm4.f zlsets.f zsbmv.f zsgt01.f zslect.f zstt21.f zunt01.f zunt03.f ----------------------------------------------------------- path: /netlib/lapack/lapack-pc/LAPACK/TESTING/LIN/ ----------------------------------------------------------- Makefile aladhd.f alaerh.f alaesm.f alahd.f alareq.f alasum.f alasvm.f cchkaa.f cchkeq.f cchkgb.f cchkge.f cchkgt.f cchkhe.f cchkhp.f cchklq.f cchkpb.f cchkpo.f cchkpp.f cchkpt.f cchkql.f cchkqp.f cchkqr.f cchkrq.f cchksp.f cchksy.f cchktb.f cchktp.f cchktr.f cchktz.f cdrvgb.f cdrvge.f cdrvgt.f cdrvhe.f cdrvhp.f cdrvls.f cdrvpb.f cdrvpo.f cdrvpp.f cdrvpt.f cdrvsp.f cdrvsy.f cerrge.f cerrgt.f cerrhe.f cerrlq.f cerrls.f cerrpo.f cerrql.f cerrqp.f cerrqr.f cerrrq.f cerrsy.f cerrtr.f cerrtz.f cerrvx.f cgbt01.f cgbt02.f cgbt05.f cgelqs.f cgeqls.f cgeqrs.f cgerqs.f cget01.f cget02.f cget03.f cget04.f cget07.f cgtt01.f cgtt02.f cgtt05.f chet01.f chkxer.f chpt01.f claipd.f claptm.f clarhs.f clatb4.f clatsp.f clatsy.f clattb.f clattp.f clattr.f clavhe.f clavhp.f clavsp.f clavsy.f clqt01.f clqt02.f clqt03.f cpbt01.f cpbt02.f cpbt05.f cpot01.f cpot02.f cpot03.f cpot05.f cppt01.f cppt02.f cppt03.f cppt05.f cptt01.f cptt02.f cptt05.f cqlt01.f cqlt02.f cqlt03.f cqpt01.f cqrt01.f cqrt02.f cqrt03.f cqrt11.f cqrt12.f cqrt13.f cqrt14.f cqrt15.f cqrt16.f cqrt17.f crqt01.f crqt02.f crqt03.f csbmv.f cspt01.f cspt02.f cspt03.f csyt01.f csyt02.f csyt03.f ctbt02.f ctbt03.f ctbt05.f ctbt06.f ctpt01.f ctpt02.f ctpt03.f ctpt05.f ctpt06.f ctrt01.f ctrt02.f ctrt03.f ctrt05.f ctrt06.f ctzt01.f ctzt02.f dchkaa.f dchkeq.f dchkgb.f dchkge.f dchkgt.f dchklq.f dchkpb.f dchkpo.f dchkpp.f dchkpt.f dchkql.f dchkqp.f dchkqr.f dchkrq.f dchksp.f dchksy.f dchktb.f dchktp.f dchktr.f dchktz.f ddrvgb.f ddrvge.f ddrvgt.f ddrvls.f ddrvpb.f ddrvpo.f ddrvpp.f ddrvpt.f ddrvsp.f ddrvsy.f derrge.f derrgt.f derrlq.f derrls.f derrpo.f derrql.f derrqp.f derrqr.f derrrq.f derrsy.f derrtr.f derrtz.f derrvx.f dgbt01.f dgbt02.f dgbt05.f dgelqs.f dgeqls.f dgeqrs.f dgerqs.f dget01.f dget02.f dget03.f dget04.f dget06.f dget07.f dgtt01.f dgtt02.f dgtt05.f dlaord.f dlaptm.f dlarhs.f dlatb4.f dlattb.f dlattp.f dlattr.f dlavsp.f dlavsy.f dlqt01.f dlqt02.f dlqt03.f dpbt01.f dpbt02.f dpbt05.f dpot01.f dpot02.f dpot03.f dpot05.f dppt01.f dppt02.f dppt03.f dppt05.f dptt01.f dptt02.f dptt05.f dqlt01.f dqlt02.f dqlt03.f dqpt01.f dqrt01.f dqrt02.f dqrt03.f dqrt11.f dqrt12.f dqrt13.f dqrt14.f dqrt15.f dqrt16.f dqrt17.f drqt01.f drqt02.f drqt03.f dspt01.f dsyt01.f dtbt02.f dtbt03.f dtbt05.f dtbt06.f dtpt01.f dtpt02.f dtpt03.f dtpt05.f dtpt06.f dtrt01.f dtrt02.f dtrt03.f dtrt05.f dtrt06.f dtzt01.f dtzt02.f ilaenv.f schkaa.f schkeq.f schkgb.f schkge.f schkgt.f schklq.f schkpb.f schkpo.f schkpp.f schkpt.f schkql.f schkqp.f schkqr.f schkrq.f schksp.f schksy.f schktb.f schktp.f schktr.f schktz.f sdrvgb.f sdrvge.f sdrvgt.f sdrvls.f sdrvpb.f sdrvpo.f sdrvpp.f sdrvpt.f sdrvsp.f sdrvsy.f serrge.f serrgt.f serrlq.f serrls.f serrpo.f serrql.f serrqp.f serrqr.f serrrq.f serrsy.f serrtr.f serrtz.f serrvx.f sgbt01.f sgbt02.f sgbt05.f sgelqs.f sgeqls.f sgeqrs.f sgerqs.f sget01.f sget02.f sget03.f sget04.f sget06.f sget07.f sgtt01.f sgtt02.f sgtt05.f slaord.f slaptm.f slarhs.f slatb4.f slattb.f slattp.f slattr.f slavsp.f slavsy.f slqt01.f slqt02.f slqt03.f spbt01.f spbt02.f spbt05.f spot01.f spot02.f spot03.f spot05.f sppt01.f sppt02.f sppt03.f sppt05.f sptt01.f sptt02.f sptt05.f sqlt01.f sqlt02.f sqlt03.f sqpt01.f sqrt01.f sqrt02.f sqrt03.f sqrt11.f sqrt12.f sqrt13.f sqrt14.f sqrt15.f sqrt16.f sqrt17.f srqt01.f srqt02.f srqt03.f sspt01.f ssyt01.f stbt02.f stbt03.f stbt05.f stbt06.f stpt01.f stpt02.f stpt03.f stpt05.f stpt06.f strt01.f strt02.f strt03.f strt05.f strt06.f stzt01.f stzt02.f xerbla.f xlaenv.f zchkaa.f zchkeq.f zchkgb.f zchkge.f zchkgt.f zchkhe.f zchkhp.f zchklq.f zchkpb.f zchkpo.f zchkpp.f zchkpt.f zchkql.f zchkqp.f zchkqr.f zchkrq.f zchksp.f zchksy.f zchktb.f zchktp.f zchktr.f zchktz.f zdrvgb.f zdrvge.f zdrvgt.f zdrvhe.f zdrvhp.f zdrvls.f zdrvpb.f zdrvpo.f zdrvpp.f zdrvpt.f zdrvsp.f zdrvsy.f zerrge.f zerrgt.f zerrhe.f zerrlq.f zerrls.f zerrpo.f zerrql.f zerrqp.f zerrqr.f zerrrq.f zerrsy.f zerrtr.f zerrtz.f zerrvx.f zgbt01.f zgbt02.f zgbt05.f zgelqs.f zgeqls.f zgeqrs.f zgerqs.f zget01.f zget02.f zget03.f zget04.f zget07.f zgtt01.f zgtt02.f zgtt05.f zhet01.f zhpt01.f zlaipd.f zlaptm.f zlarhs.f zlatb4.f zlatsp.f zlatsy.f zlattb.f zlattp.f zlattr.f zlavhe.f zlavhp.f zlavsp.f zlavsy.f zlqt01.f zlqt02.f zlqt03.f zpbt01.f zpbt02.f zpbt05.f zpot01.f zpot02.f zpot03.f zpot05.f zppt01.f zppt02.f zppt03.f zppt05.f zptt01.f zptt02.f zptt05.f zqlt01.f zqlt02.f zqlt03.f zqpt01.f zqrt01.f zqrt02.f zqrt03.f zqrt11.f zqrt12.f zqrt13.f zqrt14.f zqrt15.f zqrt16.f zqrt17.f zrqt01.f zrqt02.f zrqt03.f zsbmv.f zspt01.f zspt02.f zspt03.f zsyt01.f zsyt02.f zsyt03.f ztbt02.f ztbt03.f ztbt05.f ztbt06.f ztpt01.f ztpt02.f ztpt03.f ztpt05.f ztpt06.f ztrt01.f ztrt02.f ztrt03.f ztrt05.f ztrt06.f ztzt01.f ztzt02.f ----------------------------------------------------------- path: /netlib/lapack/lapack-pc/LAPACK/TESTING/MATGEN/ ----------------------------------------------------------- Makefile clagge.f claghe.f clagsy.f clarge.f clarnd.f claror.f clarot.f clatm1.f clatm2.f clatm3.f clatme.f clatmr.f clatms.f dlagge.f dlagsy.f dlaran.f dlarge.f dlarnd.f dlaror.f dlarot.f dlatm1.f dlatm2.f dlatm3.f dlatme.f dlatmr.f dlatms.f slagge.f slagsy.f slaran.f slarge.f slarnd.f slaror.f slarot.f slatm1.f slatm2.f slatm3.f slatme.f slatmr.f slatms.f zlagge.f zlaghe.f zlagsy.f zlarge.f zlarnd.f zlaror.f zlarot.f zlatm1.f zlatm2.f zlatm3.f zlatme.f zlatmr.f zlatms.f ----------------------------------------------------------- path: /netlib/lapack/lapack-pc/LAPACK/TIMING/ ----------------------------------------------------------- CBAND.in CBLASA.in CBLASB.in CBLASC.in CGEPTIM.in CNEPTIM.in CSEPTIM.in CSVDTIM.in CTIME.in CTIME2.in DBAND.in DBLASA.in DBLASB.in DBLASC.in DGEPTIM.in DNEPTIM.in DSEPTIM.in DSVDTIM.in DTIME.in DTIME2.in EIG/ LIN/ Makefile Makefile.sgi SBAND.in SBLASA.in SBLASB.in SBLASC.in SGEPTIM.in SNEPTIM.in SSEPTIM.in SSVDTIM.in STIME.in STIME2.in ZBAND.in ZBLASA.in ZBLASB.in ZBLASC.in ZGEPTIM.in ZNEPTIM.in ZSEPTIM.in ZSVDTIM.in ZTIME.in ZTIME2.in cband.in cblasa.in cblasb.in cblasc.in cgeptim.in cneptim.in cseptim.in csvdtim.in ctime.in ctime2.in dband.in dblasa.in dblasb.in dblasc.in dgeptim.in dneptim.in dseptim.in dsvdtim.in dtime.in dtime2.in sband.in sblasa.in sblasb.in sblasc.in sgeptim.in sneptim.in sseptim.in ssvdtim.in stime.in stime2.in zband.in zblasa.in zblasb.in zblasc.in zgeptim.in zneptim.in zseptim.in zsvdtim.in ztime.in ztime2.in ----------------------------------------------------------- path: /netlib/lapack/lapack-pc/LAPACK/TIMING/EIG/ ----------------------------------------------------------- EIGSRC/ Makefile atimin.f ceispack.f claqzh.f clatm4.f ctim21.f ctim22.f ctim26.f ctim51.f ctimee.f deispack.f dlaqzh.f dlatm4.f dmflop.f dopla.f dopla2.f dprtbe.f dprtbg.f dprtbr.f dprtbs.f dprtbv.f dtim21.f dtim22.f dtim26.f dtim51.f dtimee.f ilaenv.f seispack.f slaqzh.f slatm4.f smflop.f sopla.f sopla2.f sprtbe.f sprtbg.f sprtbr.f sprtbs.f sprtbv.f stim21.f stim22.f stim26.f stim51.f stimee.f xlaenv.f zeispack.f zlaqzh.f zlatm4.f ztim21.f ztim22.f ztim26.f ztim51.f ztimee.f ----------------------------------------------------------- path: /netlib/lapack/lapack-pc/LAPACK/TIMING/EIG/EIGSRC/ ----------------------------------------------------------- Makefile cbdsqr.f cgghrd.f chgeqz.f chsein.f chseqr.f claed0.f claed7.f claed8.f claein.f clahqr.f cpteqr.f cstedc.f cstein.f csteqr.f ctgevc.f ctrevc.f dbdsqr.f dgghrd.f dhgeqz.f dhsein.f dhseqr.f dlaebz.f dlaed0.f dlaed1.f dlaed2.f dlaed3.f dlaed4.f dlaed5.f dlaed6.f dlaed7.f dlaed8.f dlaed9.f dlaeda.f dlaein.f dlahqr.f dlasq1.f dlasq2.f dlasq3.f dlasq4.f dpteqr.f dstebz.f dstedc.f dstein.f dsteqr.f dsterf.f dtgevc.f dtrevc.f sbdsqr.f sgghrd.f shgeqz.f shsein.f shseqr.f slaebz.f slaed0.f slaed1.f slaed2.f slaed3.f slaed4.f slaed5.f slaed6.f slaed7.f slaed8.f slaed9.f slaeda.f slaein.f slahqr.f slasq1.f slasq2.f slasq3.f slasq4.f spteqr.f sstebz.f sstedc.f sstein.f ssteqr.f ssterf.f stgevc.f strevc.f zbdsqr.f zgghrd.f zhgeqz.f zhsein.f zhseqr.f zlaed0.f zlaed7.f zlaed8.f zlaein.f zlahqr.f zpteqr.f zstedc.f zstein.f zsteqr.f ztgevc.f ztrevc.f ----------------------------------------------------------- path: /netlib/lapack/lapack-pc/LAPACK/TIMING/LIN/ ----------------------------------------------------------- Makefile atimck.f atimin.f clinpk.f ctimaa.f ctimb2.f ctimb3.f ctimbr.f ctimgb.f ctimge.f ctimgt.f ctimhe.f ctimhp.f ctimhr.f ctimlq.f ctimmg.f ctimmm.f ctimmv.f ctimpb.f ctimpo.f ctimpp.f ctimpt.f ctimql.f ctimqp.f ctimqr.f ctimrq.f ctimsp.f ctimsy.f ctimtb.f ctimtd.f ctimtp.f ctimtr.f deispk.f dlinpk.f dmflop.f dopaux.f dopbl2.f dopbl3.f dopgb.f dopla.f dprtb2.f dprtb3.f dprtb4.f dprtb5.f dprtbl.f dtimaa.f dtimb2.f dtimb3.f dtimbr.f dtimgb.f dtimge.f dtimgt.f dtimhr.f dtimlq.f dtimmg.f dtimmm.f dtimmv.f dtimpb.f dtimpo.f dtimpp.f dtimpt.f dtimql.f dtimqp.f dtimqr.f dtimrq.f dtimsp.f dtimsy.f dtimtb.f dtimtd.f dtimtp.f dtimtr.f icopy.f ilaenv.f seispk.f slinpk.f smflop.f sopaux.f sopbl2.f sopbl3.f sopgb.f sopla.f sprtb2.f sprtb3.f sprtb4.f sprtb5.f sprtbl.f stimaa.f stimb2.f stimb3.f stimbr.f stimgb.f stimge.f stimgt.f stimhr.f stimlq.f stimmg.f stimmm.f stimmv.f stimpb.f stimpo.f stimpp.f stimpt.f stimql.f stimqp.f stimqr.f stimrq.f stimsp.f stimsy.f stimtb.f stimtd.f stimtp.f stimtr.f xlaenv.f zlinpk.f ztimaa.f ztimb2.f ztimb3.f ztimbr.f ztimgb.f ztimge.f ztimgt.f ztimhe.f ztimhp.f ztimhr.f ztimlq.f ztimmg.f ztimmm.f ztimmv.f ztimpb.f ztimpo.f ztimpp.f ztimpt.f ztimql.f ztimqp.f ztimqr.f ztimrq.f ztimsp.f ztimsy.f ztimtb.f ztimtd.f ztimtp.f ztimtr.f ----------------------------------------------------------- for (FOR NON EMAIL USERS ONLY) This is the COMPLETE path: /netlib/lapack/lapack/ ----------------------------------------------------------- BLAS/ INSTALL/ Makefile README SRC/ TESTING/ TIMING/ latape make.inc ----------------------------------------------------------- path: /netlib/lapack/lapack/BLAS/ ----------------------------------------------------------- SRC/ TESTING/ cblat2.in cblat3.in dblat2.in dblat3.in sblat2.in sblat3.in zblat2.in zblat3.in ----------------------------------------------------------- path: /netlib/lapack/lapack/BLAS/SRC/ ----------------------------------------------------------- Makefile caxpy.f ccopy.f cdotc.f cdotu.f cgbmv.f cgemm.f cgemv.f cgerc.f cgeru.f chbmv.f chemm.f chemv.f cher.f cher2.f cher2k.f cherk.f chpmv.f chpr.f chpr2.f crotg.f cscal.f csscal.f cswap.f csymm.f csyr2k.f csyrk.f ctbmv.f ctbsv.f ctpmv.f ctpsv.f ctrmm.f ctrmv.f ctrsm.f ctrsv.f dasum.f daxpy.f dcabs1.f dcopy.f ddot.f dgbmv.f dgemm.f dgemv.f dger.f dnrm2.f drot.f drotg.f dsbmv.f dscal.f dspmv.f dspr.f dspr2.f dswap.f dsymm.f dsymv.f dsyr.f dsyr2.f dsyr2k.f dsyrk.f dtbmv.f dtbsv.f dtpmv.f dtpsv.f dtrmm.f dtrmv.f dtrsm.f dtrsv.f dzasum.f dznrm2.f icamax.f idamax.f isamax.f izamax.f lsame.f sasum.f saxpy.f scasum.f scnrm2.f scopy.f sdot.f sgbmv.f sgemm.f sgemv.f sger.f snrm2.f srot.f srotg.f ssbmv.f sscal.f sspmv.f sspr.f sspr2.f sswap.f ssymm.f ssymv.f ssyr.f ssyr2.f ssyr2k.f ssyrk.f stbmv.f stbsv.f stpmv.f stpsv.f strmm.f strmv.f strsm.f strsv.f xerbla.f zaxpy.f zcopy.f zdotc.f zdotu.f zdscal.f zgbmv.f zgemm.f zgemv.f zgerc.f zgeru.f zhbmv.f zhemm.f zhemv.f zher.f zher2.f zher2k.f zherk.f zhpmv.f zhpr.f zhpr2.f zrotg.f zscal.f zswap.f zsymm.f zsyr2k.f zsyrk.f ztbmv.f ztbsv.f ztpmv.f ztpsv.f ztrmm.f ztrmv.f ztrsm.f ztrsv.f ----------------------------------------------------------- path: /netlib/lapack/lapack/BLAS/TESTING/ ----------------------------------------------------------- Makeblat1 Makeblat2 Makeblat3 cblat1.f cblat2.f cblat3.f dblat1.f dblat2.f dblat3.f sblat1.f sblat2.f sblat3.f zblat1.f zblat2.f zblat3.f ----------------------------------------------------------- path: /netlib/lapack/lapack/INSTALL/ ----------------------------------------------------------- Makefile dlamch.f dlamchtst.f dsecnd.f dsecndtst.f lawn81.ps lawn81.tex lsame.f lsametst.f org2.ps psfig.tex second.f secondtst.f slamch.f slamchtst.f ----------------------------------------------------------- path: /netlib/lapack/lapack/SRC/ ----------------------------------------------------------- Makefile cbdsqr.f cgbbrd.f cgbcon.f cgbequ.f cgbrfs.f cgbsv.f cgbsvx.f cgbtf2.f cgbtrf.f cgbtrs.f cgebak.f cgebal.f cgebd2.f cgebrd.f cgecon.f cgeequ.f cgees.f cgeesx.f cgeev.f cgeevx.f cgegs.f cgegv.f cgehd2.f cgehrd.f cgelq2.f cgelqf.f cgels.f cgelss.f cgelsx.f cgeql2.f cgeqlf.f cgeqpf.f cgeqr2.f cgeqrf.f cgerfs.f cgerq2.f cgerqf.f cgesv.f cgesvd.f cgesvx.f cgetf2.f cgetrf.f cgetri.f cgetrs.f cggbak.f cggbal.f cggglm.f cgghrd.f cgglse.f cggqrf.f cggrqf.f cggsvd.f cggsvp.f cgtcon.f cgtrfs.f cgtsv.f cgtsvx.f cgttrf.f cgttrs.f chbev.f chbevd.f chbevx.f chbgst.f chbgv.f chbtrd.f checon.f cheev.f cheevd.f cheevx.f chegs2.f chegst.f chegv.f cherfs.f chesv.f chesvx.f chetd2.f chetf2.f chetrd.f chetrf.f chetri.f chetrs.f chgeqz.f chpcon.f chpev.f chpevd.f chpevx.f chpgst.f chpgv.f chprfs.f chpsv.f chpsvx.f chptrd.f chptrf.f chptri.f chptrs.f chsein.f chseqr.f clabrd.f clacgv.f clacon.f clacpy.f clacrm.f clacrt.f cladiv.f claed0.f claed7.f claed8.f claein.f claesy.f claev2.f clags2.f clagtm.f clahef.f clahqr.f clahrd.f claic1.f clangb.f clange.f clangt.f clanhb.f clanhe.f clanhp.f clanhs.f clanht.f clansb.f clansp.f clansy.f clantb.f clantp.f clantr.f clapll.f clapmt.f claqgb.f claqge.f claqhb.f claqhe.f claqhp.f claqsb.f claqsp.f claqsy.f clar2v.f clarf.f clarfb.f clarfg.f clarft.f clarfx.f clargv.f clarnv.f clartg.f clartv.f clascl.f claset.f clasr.f classq.f claswp.f clasyf.f clatbs.f clatps.f clatrd.f clatrs.f clatzm.f clauu2.f clauum.f cpbcon.f cpbequ.f cpbrfs.f cpbstf.f cpbsv.f cpbsvx.f cpbtf2.f cpbtrf.f cpbtrs.f cpocon.f cpoequ.f cporfs.f cposv.f cposvx.f cpotf2.f cpotrf.f cpotri.f cpotrs.f cppcon.f cppequ.f cpprfs.f cppsv.f cppsvx.f cpptrf.f cpptri.f cpptrs.f cptcon.f cpteqr.f cptrfs.f cptsv.f cptsvx.f cpttrf.f cpttrs.f crot.f cspcon.f cspmv.f cspr.f csprfs.f cspsv.f cspsvx.f csptrf.f csptri.f csptrs.f csrot.f csrscl.f cstedc.f cstein.f csteqr.f csycon.f csymv.f csyr.f csyrfs.f csysv.f csysvx.f csytf2.f csytrf.f csytri.f csytrs.f ctbcon.f ctbrfs.f ctbtrs.f ctgevc.f ctgsja.f ctpcon.f ctprfs.f ctptri.f ctptrs.f ctrcon.f ctrevc.f ctrexc.f ctrrfs.f ctrsen.f ctrsna.f ctrsyl.f ctrti2.f ctrtri.f ctrtrs.f ctzrqf.f cung2l.f cung2r.f cungbr.f cunghr.f cungl2.f cunglq.f cungql.f cungqr.f cungr2.f cungrq.f cungtr.f cunm2l.f cunm2r.f cunmbr.f cunmhr.f cunml2.f cunmlq.f cunmql.f cunmqr.f cunmr2.f cunmrq.f cunmtr.f cupgtr.f cupmtr.f dbdsqr.f ddisna.f dgbbrd.f dgbcon.f dgbequ.f dgbrfs.f dgbsv.f dgbsvx.f dgbtf2.f dgbtrf.f dgbtrs.f dgebak.f dgebal.f dgebd2.f dgebrd.f dgecon.f dgeequ.f dgees.f dgeesx.f dgeev.f dgeevx.f dgegs.f dgegv.f dgehd2.f dgehrd.f dgelq2.f dgelqf.f dgels.f dgelss.f dgelsx.f dgeql2.f dgeqlf.f dgeqpf.f dgeqr2.f dgeqrf.f dgerfs.f dgerq2.f dgerqf.f dgesv.f dgesvd.f dgesvx.f dgetf2.f dgetrf.f dgetri.f dgetrs.f dggbak.f dggbal.f dggglm.f dgghrd.f dgglse.f dggqrf.f dggrqf.f dggsvd.f dggsvp.f dgtcon.f dgtrfs.f dgtsv.f dgtsvx.f dgttrf.f dgttrs.f dhgeqz.f dhsein.f dhseqr.f dlabad.f dlabrd.f dlacon.f dlacpy.f dladiv.f dlae2.f dlaebz.f dlaed0.f dlaed1.f dlaed2.f dlaed3.f dlaed4.f dlaed5.f dlaed6.f dlaed7.f dlaed8.f dlaed9.f dlaeda.f dlaein.f dlaev2.f dlaexc.f dlag2.f dlags2.f dlagtf.f dlagtm.f dlagts.f dlahqr.f dlahrd.f dlaic1.f dlaln2.f dlamch.f dlamrg.f dlangb.f dlange.f dlangt.f dlanhs.f dlansb.f dlansp.f dlanst.f dlansy.f dlantb.f dlantp.f dlantr.f dlanv2.f dlapll.f dlapmt.f dlapy2.f dlapy3.f dlaqgb.f dlaqge.f dlaqsb.f dlaqsp.f dlaqsy.f dlaqtr.f dlar2v.f dlarf.f dlarfb.f dlarfg.f dlarft.f dlarfx.f dlargv.f dlarnv.f dlartg.f dlartv.f dlaruv.f dlas2.f dlascl.f dlaset.f dlasq1.f dlasq2.f dlasq3.f dlasq4.f dlasr.f dlasrt.f dlassq.f dlasv2.f dlaswp.f dlasy2.f dlasyf.f dlatbs.f dlatps.f dlatrd.f dlatrs.f dlatzm.f dlauu2.f dlauum.f dopgtr.f dopmtr.f dorg2l.f dorg2r.f dorgbr.f dorghr.f dorgl2.f dorglq.f dorgql.f dorgqr.f dorgr2.f dorgrq.f dorgtr.f dorm2l.f dorm2r.f dormbr.f dormhr.f dorml2.f dormlq.f dormql.f dormqr.f dormr2.f dormrq.f dormtr.f dpbcon.f dpbequ.f dpbrfs.f dpbstf.f dpbsv.f dpbsvx.f dpbtf2.f dpbtrf.f dpbtrs.f dpocon.f dpoequ.f dporfs.f dposv.f dposvx.f dpotf2.f dpotrf.f dpotri.f dpotrs.f dppcon.f dppequ.f dpprfs.f dppsv.f dppsvx.f dpptrf.f dpptri.f dpptrs.f dptcon.f dpteqr.f dptrfs.f dptsv.f dptsvx.f dpttrf.f dpttrs.f drscl.f dsbev.f dsbevd.f dsbevx.f dsbgst.f dsbgv.f dsbtrd.f dsecnd.f dspcon.f dspev.f dspevd.f dspevx.f dspgst.f dspgv.f dsprfs.f dspsv.f dspsvx.f dsptrd.f dsptrf.f dsptri.f dsptrs.f dstebz.f dstedc.f dstein.f dsteqr.f dsterf.f dstev.f dstevd.f dstevx.f dsycon.f dsyev.f dsyevd.f dsyevx.f dsygs2.f dsygst.f dsygv.f dsyrfs.f dsysv.f dsysvx.f dsytd2.f dsytf2.f dsytrd.f dsytrf.f dsytri.f dsytrs.f dtbcon.f dtbrfs.f dtbtrs.f dtgevc.f dtgsja.f dtpcon.f dtprfs.f dtptri.f dtptrs.f dtrcon.f dtrevc.f dtrexc.f dtrrfs.f dtrsen.f dtrsna.f dtrsyl.f dtrti2.f dtrtri.f dtrtrs.f dtzrqf.f dzsum1.f icmax1.f ilaenv.f izmax1.f lsame.f lsamen.f sbdsqr.f scsum1.f sdisna.f second.f sgbbrd.f sgbcon.f sgbequ.f sgbrfs.f sgbsv.f sgbsvx.f sgbtf2.f sgbtrf.f sgbtrs.f sgebak.f sgebal.f sgebd2.f sgebrd.f sgecon.f sgeequ.f sgees.f sgeesx.f sgeev.f sgeevx.f sgegs.f sgegv.f sgehd2.f sgehrd.f sgelq2.f sgelqf.f sgels.f sgelss.f sgelsx.f sgeql2.f sgeqlf.f sgeqpf.f sgeqr2.f sgeqrf.f sgerfs.f sgerq2.f sgerqf.f sgesv.f sgesvd.f sgesvx.f sgetf2.f sgetrf.f sgetri.f sgetrs.f sggbak.f sggbal.f sggglm.f sgghrd.f sgglse.f sggqrf.f sggrqf.f sggsvd.f sggsvp.f sgtcon.f sgtrfs.f sgtsv.f sgtsvx.f sgttrf.f sgttrs.f shgeqz.f shsein.f shseqr.f slabad.f slabrd.f slacon.f slacpy.f sladiv.f slae2.f slaebz.f slaed0.f slaed1.f slaed2.f slaed3.f slaed4.f slaed5.f slaed6.f slaed7.f slaed8.f slaed9.f slaeda.f slaein.f slaev2.f slaexc.f slag2.f slags2.f slagtf.f slagtm.f slagts.f slahqr.f slahrd.f slaic1.f slaln2.f slamch.f slamrg.f slangb.f slange.f slangt.f slanhs.f slansb.f slansp.f slanst.f slansy.f slantb.f slantp.f slantr.f slanv2.f slapll.f slapmt.f slapy2.f slapy3.f slaqgb.f slaqge.f slaqsb.f slaqsp.f slaqsy.f slaqtr.f slar2v.f slarf.f slarfb.f slarfg.f slarft.f slarfx.f slargv.f slarnv.f slartg.f slartv.f slaruv.f slas2.f slascl.f slaset.f slasq1.f slasq2.f slasq3.f slasq4.f slasr.f slasrt.f slassq.f slasv2.f slaswp.f slasy2.f slasyf.f slatbs.f slatps.f slatrd.f slatrs.f slatzm.f slauu2.f slauum.f sopgtr.f sopmtr.f sorg2l.f sorg2r.f sorgbr.f sorghr.f sorgl2.f sorglq.f sorgql.f sorgqr.f sorgr2.f sorgrq.f sorgtr.f sorm2l.f sorm2r.f sormbr.f sormhr.f sorml2.f sormlq.f sormql.f sormqr.f sormr2.f sormrq.f sormtr.f spbcon.f spbequ.f spbrfs.f spbstf.f spbsv.f spbsvx.f spbtf2.f spbtrf.f spbtrs.f spocon.f spoequ.f sporfs.f sposv.f sposvx.f spotf2.f spotrf.f spotri.f spotrs.f sppcon.f sppequ.f spprfs.f sppsv.f sppsvx.f spptrf.f spptri.f spptrs.f sptcon.f spteqr.f sptrfs.f sptsv.f sptsvx.f spttrf.f spttrs.f srscl.f ssbev.f ssbevd.f ssbevx.f ssbgst.f ssbgv.f ssbtrd.f sspcon.f sspev.f sspevd.f sspevx.f sspgst.f sspgv.f ssprfs.f sspsv.f sspsvx.f ssptrd.f ssptrf.f ssptri.f ssptrs.f sstebz.f sstedc.f sstein.f ssteqr.f ssterf.f sstev.f sstevd.f sstevx.f ssycon.f ssyev.f ssyevd.f ssyevx.f ssygs2.f ssygst.f ssygv.f ssyrfs.f ssysv.f ssysvx.f ssytd2.f ssytf2.f ssytrd.f ssytrf.f ssytri.f ssytrs.f stbcon.f stbrfs.f stbtrs.f stgevc.f stgsja.f stpcon.f stprfs.f stptri.f stptrs.f strcon.f strevc.f strexc.f strrfs.f strsen.f strsna.f strsyl.f strti2.f strtri.f strtrs.f stzrqf.f xerbla.f zbdsqr.f zdrot.f zdrscl.f zgbbrd.f zgbcon.f zgbequ.f zgbrfs.f zgbsv.f zgbsvx.f zgbtf2.f zgbtrf.f zgbtrs.f zgebak.f zgebal.f zgebd2.f zgebrd.f zgecon.f zgeequ.f zgees.f zgeesx.f zgeev.f zgeevx.f zgegs.f zgegv.f zgehd2.f zgehrd.f zgelq2.f zgelqf.f zgels.f zgelss.f zgelsx.f zgeql2.f zgeqlf.f zgeqpf.f zgeqr2.f zgeqrf.f zgerfs.f zgerq2.f zgerqf.f zgesv.f zgesvd.f zgesvx.f zgetf2.f zgetrf.f zgetri.f zgetrs.f zggbak.f zggbal.f zggglm.f zgghrd.f zgglse.f zggqrf.f zggrqf.f zggsvd.f zggsvp.f zgtcon.f zgtrfs.f zgtsv.f zgtsvx.f zgttrf.f zgttrs.f zhbev.f zhbevd.f zhbevx.f zhbgst.f zhbgv.f zhbtrd.f zhecon.f zheev.f zheevd.f zheevx.f zhegs2.f zhegst.f zhegv.f zherfs.f zhesv.f zhesvx.f zhetd2.f zhetf2.f zhetrd.f zhetrf.f zhetri.f zhetrs.f zhgeqz.f zhpcon.f zhpev.f zhpevd.f zhpevx.f zhpgst.f zhpgv.f zhprfs.f zhpsv.f zhpsvx.f zhptrd.f zhptrf.f zhptri.f zhptrs.f zhsein.f zhseqr.f zlabrd.f zlacgv.f zlacon.f zlacpy.f zlacrm.f zlacrt.f zladiv.f zlaed0.f zlaed7.f zlaed8.f zlaein.f zlaesy.f zlaev2.f zlags2.f zlagtm.f zlahef.f zlahqr.f zlahrd.f zlaic1.f zlangb.f zlange.f zlangt.f zlanhb.f zlanhe.f zlanhp.f zlanhs.f zlanht.f zlansb.f zlansp.f zlansy.f zlantb.f zlantp.f zlantr.f zlapll.f zlapmt.f zlaqgb.f zlaqge.f zlaqhb.f zlaqhe.f zlaqhp.f zlaqsb.f zlaqsp.f zlaqsy.f zlar2v.f zlarf.f zlarfb.f zlarfg.f zlarft.f zlarfx.f zlargv.f zlarnv.f zlartg.f zlartv.f zlascl.f zlaset.f zlasr.f zlassq.f zlaswp.f zlasyf.f zlatbs.f zlatps.f zlatrd.f zlatrs.f zlatzm.f zlauu2.f zlauum.f zpbcon.f zpbequ.f zpbrfs.f zpbstf.f zpbsv.f zpbsvx.f zpbtf2.f zpbtrf.f zpbtrs.f zpocon.f zpoequ.f zporfs.f zposv.f zposvx.f zpotf2.f zpotrf.f zpotri.f zpotrs.f zppcon.f zppequ.f zpprfs.f zppsv.f zppsvx.f zpptrf.f zpptri.f zpptrs.f zptcon.f zpteqr.f zptrfs.f zptsv.f zptsvx.f zpttrf.f zpttrs.f zrot.f zspcon.f zspmv.f zspr.f zsprfs.f zspsv.f zspsvx.f zsptrf.f zsptri.f zsptrs.f zstedc.f zstein.f zsteqr.f zsycon.f zsymv.f zsyr.f zsyrfs.f zsysv.f zsysvx.f zsytf2.f zsytrf.f zsytri.f zsytrs.f ztbcon.f ztbrfs.f ztbtrs.f ztgevc.f ztgsja.f ztpcon.f ztprfs.f ztptri.f ztptrs.f ztrcon.f ztrevc.f ztrexc.f ztrrfs.f ztrsen.f ztrsna.f ztrsyl.f ztrti2.f ztrtri.f ztrtrs.f ztzrqf.f zung2l.f zung2r.f zungbr.f zunghr.f zungl2.f zunglq.f zungql.f zungqr.f zungr2.f zungrq.f zungtr.f zunm2l.f zunm2r.f zunmbr.f zunmhr.f zunml2.f zunmlq.f zunmql.f zunmqr.f zunmr2.f zunmrq.f zunmtr.f zupgtr.f zupmtr.f ----------------------------------------------------------- path: /netlib/lapack/lapack/TESTING/ ----------------------------------------------------------- EIG/ LIN/ MATGEN/ Makefile Makefile.sgi cbak.in cbal.in cbb.in cec.in ced.in cgbak.in cgbal.in cgg.in csb.in csg.in ctest.in dbak.in dbal.in dbb.in dec.in ded.in dgbak.in dgbal.in dgg.in dsb.in dsg.in dtest.in glm.in gqr.in gsv.in lse.in nep.in sbak.in sbal.in sbb.in sec.in sed.in sep.in sgbak.in sgbal.in sgg.in ssb.in ssg.in stest.in svd.in zbak.in zbal.in zbb.in zec.in zed.in zgbak.in zgbal.in zgg.in zsb.in zsg.in ztest.in ----------------------------------------------------------- path: /netlib/lapack/lapack/TESTING/EIG/ ----------------------------------------------------------- Makefile alahdg.f alareq.f alarqg.f alasmg.f alasum.f alasvm.f cbdt01.f cbdt02.f cbdt03.f cchkbb.f cchkbd.f cchkbk.f cchkbl.f cchkec.f cchkee.f cchkgg.f cchkgk.f cchkgl.f cchkhb.f cchkhs.f cchkst.f cckglm.f cckgqr.f cckgsv.f ccklse.f cdrvbd.f cdrves.f cdrvev.f cdrvgg.f cdrvsg.f cdrvst.f cdrvsx.f cdrvvx.f cerrbd.f cerrec.f cerred.f cerrgg.f cerrhs.f cerrst.f cget02.f cget10.f cget22.f cget23.f cget24.f cget35.f cget36.f cget37.f cget38.f cget51.f cget52.f cglmts.f cgqrts.f cgrqts.f cgsvts.f chbt21.f chet21.f chet22.f chkxer.f chpt21.f chst01.f clarfy.f clarhs.f clatm4.f clsets.f csbmv.f csgt01.f cslect.f cstt21.f cunt01.f cunt03.f dbdt01.f dbdt02.f dbdt03.f dchkbb.f dchkbd.f dchkbk.f dchkbl.f dchkec.f dchkee.f dchkgg.f dchkgk.f dchkgl.f dchkhs.f dchksb.f dchkst.f dckglm.f dckgqr.f dckgsv.f dcklse.f ddrvbd.f ddrves.f ddrvev.f ddrvgg.f ddrvsg.f ddrvst.f ddrvsx.f ddrvvx.f derrbd.f derrec.f derred.f derrgg.f derrhs.f derrst.f dget02.f dget10.f dget22.f dget23.f dget24.f dget31.f dget32.f dget33.f dget34.f dget35.f dget36.f dget37.f dget38.f dget39.f dget51.f dget52.f dget53.f dglmts.f dgqrts.f dgrqts.f dgsvts.f dhst01.f dlafts.f dlahd2.f dlarfy.f dlarhs.f dlasum.f dlatb9.f dlatm4.f dlsets.f dort01.f dort03.f dsbt21.f dsgt01.f dslect.f dspt21.f dstech.f dstect.f dstt21.f dstt22.f dsvdch.f dsvdct.f dsxt1.f dsyt21.f dsyt22.f ilaenv.f sbdt01.f sbdt02.f sbdt03.f schkbb.f schkbd.f schkbk.f schkbl.f schkec.f schkee.f schkgg.f schkgk.f schkgl.f schkhs.f schksb.f schkst.f sckglm.f sckgqr.f sckgsv.f scklse.f sdrvbd.f sdrves.f sdrvev.f sdrvgg.f sdrvsg.f sdrvst.f sdrvsx.f sdrvvx.f serrbd.f serrec.f serred.f serrgg.f serrhs.f serrst.f sget02.f sget10.f sget22.f sget23.f sget24.f sget31.f sget32.f sget33.f sget34.f sget35.f sget36.f sget37.f sget38.f sget39.f sget51.f sget52.f sget53.f sglmts.f sgqrts.f sgrqts.f sgsvts.f shst01.f slafts.f slahd2.f slarfy.f slarhs.f slasum.f slatb9.f slatm4.f slsets.f sort01.f sort03.f ssbt21.f ssgt01.f sslect.f sspt21.f sstech.f sstect.f sstt21.f sstt22.f ssvdch.f ssvdct.f ssxt1.f ssyt21.f ssyt22.f xerbla.f xlaenv.f zbdt01.f zbdt02.f zbdt03.f zchkbb.f zchkbd.f zchkbk.f zchkbl.f zchkec.f zchkee.f zchkgg.f zchkgk.f zchkgl.f zchkhb.f zchkhs.f zchkst.f zckglm.f zckgqr.f zckgsv.f zcklse.f zdrvbd.f zdrves.f zdrvev.f zdrvgg.f zdrvsg.f zdrvst.f zdrvsx.f zdrvvx.f zerrbd.f zerrec.f zerred.f zerrgg.f zerrhs.f zerrst.f zget02.f zget10.f zget22.f zget23.f zget24.f zget35.f zget36.f zget37.f zget38.f zget51.f zget52.f zglmts.f zgqrts.f zgrqts.f zgsvts.f zhbt21.f zhet21.f zhet22.f zhpt21.f zhst01.f zlarfy.f zlarhs.f zlatm4.f zlsets.f zsbmv.f zsgt01.f zslect.f zstt21.f zunt01.f zunt03.f ----------------------------------------------------------- path: /netlib/lapack/lapack/TESTING/LIN/ ----------------------------------------------------------- Makefile aladhd.f alaerh.f alaesm.f alahd.f alareq.f alasum.f alasvm.f cchkaa.f cchkeq.f cchkgb.f cchkge.f cchkgt.f cchkhe.f cchkhp.f cchklq.f cchkpb.f cchkpo.f cchkpp.f cchkpt.f cchkql.f cchkqp.f cchkqr.f cchkrq.f cchksp.f cchksy.f cchktb.f cchktp.f cchktr.f cchktz.f cdrvgb.f cdrvge.f cdrvgt.f cdrvhe.f cdrvhp.f cdrvls.f cdrvpb.f cdrvpo.f cdrvpp.f cdrvpt.f cdrvsp.f cdrvsy.f cerrge.f cerrgt.f cerrhe.f cerrlq.f cerrls.f cerrpo.f cerrql.f cerrqp.f cerrqr.f cerrrq.f cerrsy.f cerrtr.f cerrtz.f cerrvx.f cgbt01.f cgbt02.f cgbt05.f cgelqs.f cgeqls.f cgeqrs.f cgerqs.f cget01.f cget02.f cget03.f cget04.f cget07.f cgtt01.f cgtt02.f cgtt05.f chet01.f chkxer.f chpt01.f claipd.f claptm.f clarhs.f clatb4.f clatsp.f clatsy.f clattb.f clattp.f clattr.f clavhe.f clavhp.f clavsp.f clavsy.f clqt01.f clqt02.f clqt03.f cpbt01.f cpbt02.f cpbt05.f cpot01.f cpot02.f cpot03.f cpot05.f cppt01.f cppt02.f cppt03.f cppt05.f cptt01.f cptt02.f cptt05.f cqlt01.f cqlt02.f cqlt03.f cqpt01.f cqrt01.f cqrt02.f cqrt03.f cqrt11.f cqrt12.f cqrt13.f cqrt14.f cqrt15.f cqrt16.f cqrt17.f crqt01.f crqt02.f crqt03.f csbmv.f cspt01.f cspt02.f cspt03.f csyt01.f csyt02.f csyt03.f ctbt02.f ctbt03.f ctbt05.f ctbt06.f ctpt01.f ctpt02.f ctpt03.f ctpt05.f ctpt06.f ctrt01.f ctrt02.f ctrt03.f ctrt05.f ctrt06.f ctzt01.f ctzt02.f dchkaa.f dchkeq.f dchkgb.f dchkge.f dchkgt.f dchklq.f dchkpb.f dchkpo.f dchkpp.f dchkpt.f dchkql.f dchkqp.f dchkqr.f dchkrq.f dchksp.f dchksy.f dchktb.f dchktp.f dchktr.f dchktz.f ddrvgb.f ddrvge.f ddrvgt.f ddrvls.f ddrvpb.f ddrvpo.f ddrvpp.f ddrvpt.f ddrvsp.f ddrvsy.f derrge.f derrgt.f derrlq.f derrls.f derrpo.f derrql.f derrqp.f derrqr.f derrrq.f derrsy.f derrtr.f derrtz.f derrvx.f dgbt01.f dgbt02.f dgbt05.f dgelqs.f dgeqls.f dgeqrs.f dgerqs.f dget01.f dget02.f dget03.f dget04.f dget06.f dget07.f dgtt01.f dgtt02.f dgtt05.f dlaord.f dlaptm.f dlarhs.f dlatb4.f dlattb.f dlattp.f dlattr.f dlavsp.f dlavsy.f dlqt01.f dlqt02.f dlqt03.f dpbt01.f dpbt02.f dpbt05.f dpot01.f dpot02.f dpot03.f dpot05.f dppt01.f dppt02.f dppt03.f dppt05.f dptt01.f dptt02.f dptt05.f dqlt01.f dqlt02.f dqlt03.f dqpt01.f dqrt01.f dqrt02.f dqrt03.f dqrt11.f dqrt12.f dqrt13.f dqrt14.f dqrt15.f dqrt16.f dqrt17.f drqt01.f drqt02.f drqt03.f dspt01.f dsyt01.f dtbt02.f dtbt03.f dtbt05.f dtbt06.f dtpt01.f dtpt02.f dtpt03.f dtpt05.f dtpt06.f dtrt01.f dtrt02.f dtrt03.f dtrt05.f dtrt06.f dtzt01.f dtzt02.f ilaenv.f schkaa.f schkeq.f schkgb.f schkge.f schkgt.f schklq.f schkpb.f schkpo.f schkpp.f schkpt.f schkql.f schkqp.f schkqr.f schkrq.f schksp.f schksy.f schktb.f schktp.f schktr.f schktz.f sdrvgb.f sdrvge.f sdrvgt.f sdrvls.f sdrvpb.f sdrvpo.f sdrvpp.f sdrvpt.f sdrvsp.f sdrvsy.f serrge.f serrgt.f serrlq.f serrls.f serrpo.f serrql.f serrqp.f serrqr.f serrrq.f serrsy.f serrtr.f serrtz.f serrvx.f sgbt01.f sgbt02.f sgbt05.f sgelqs.f sgeqls.f sgeqrs.f sgerqs.f sget01.f sget02.f sget03.f sget04.f sget06.f sget07.f sgtt01.f sgtt02.f sgtt05.f slaord.f slaptm.f slarhs.f slatb4.f slattb.f slattp.f slattr.f slavsp.f slavsy.f slqt01.f slqt02.f slqt03.f spbt01.f spbt02.f spbt05.f spot01.f spot02.f spot03.f spot05.f sppt01.f sppt02.f sppt03.f sppt05.f sptt01.f sptt02.f sptt05.f sqlt01.f sqlt02.f sqlt03.f sqpt01.f sqrt01.f sqrt02.f sqrt03.f sqrt11.f sqrt12.f sqrt13.f sqrt14.f sqrt15.f sqrt16.f sqrt17.f srqt01.f srqt02.f srqt03.f sspt01.f ssyt01.f stbt02.f stbt03.f stbt05.f stbt06.f stpt01.f stpt02.f stpt03.f stpt05.f stpt06.f strt01.f strt02.f strt03.f strt05.f strt06.f stzt01.f stzt02.f xerbla.f xlaenv.f zchkaa.f zchkeq.f zchkgb.f zchkge.f zchkgt.f zchkhe.f zchkhp.f zchklq.f zchkpb.f zchkpo.f zchkpp.f zchkpt.f zchkql.f zchkqp.f zchkqr.f zchkrq.f zchksp.f zchksy.f zchktb.f zchktp.f zchktr.f zchktz.f zdrvgb.f zdrvge.f zdrvgt.f zdrvhe.f zdrvhp.f zdrvls.f zdrvpb.f zdrvpo.f zdrvpp.f zdrvpt.f zdrvsp.f zdrvsy.f zerrge.f zerrgt.f zerrhe.f zerrlq.f zerrls.f zerrpo.f zerrql.f zerrqp.f zerrqr.f zerrrq.f zerrsy.f zerrtr.f zerrtz.f zerrvx.f zgbt01.f zgbt02.f zgbt05.f zgelqs.f zgeqls.f zgeqrs.f zgerqs.f zget01.f zget02.f zget03.f zget04.f zget07.f zgtt01.f zgtt02.f zgtt05.f zhet01.f zhpt01.f zlaipd.f zlaptm.f zlarhs.f zlatb4.f zlatsp.f zlatsy.f zlattb.f zlattp.f zlattr.f zlavhe.f zlavhp.f zlavsp.f zlavsy.f zlqt01.f zlqt02.f zlqt03.f zpbt01.f zpbt02.f zpbt05.f zpot01.f zpot02.f zpot03.f zpot05.f zppt01.f zppt02.f zppt03.f zppt05.f zptt01.f zptt02.f zptt05.f zqlt01.f zqlt02.f zqlt03.f zqpt01.f zqrt01.f zqrt02.f zqrt03.f zqrt11.f zqrt12.f zqrt13.f zqrt14.f zqrt15.f zqrt16.f zqrt17.f zrqt01.f zrqt02.f zrqt03.f zsbmv.f zspt01.f zspt02.f zspt03.f zsyt01.f zsyt02.f zsyt03.f ztbt02.f ztbt03.f ztbt05.f ztbt06.f ztpt01.f ztpt02.f ztpt03.f ztpt05.f ztpt06.f ztrt01.f ztrt02.f ztrt03.f ztrt05.f ztrt06.f ztzt01.f ztzt02.f ----------------------------------------------------------- path: /netlib/lapack/lapack/TESTING/MATGEN/ ----------------------------------------------------------- Makefile clagge.f claghe.f clagsy.f clarge.f clarnd.f claror.f clarot.f clatm1.f clatm2.f clatm3.f clatme.f clatmr.f clatms.f dlagge.f dlagsy.f dlaran.f dlarge.f dlarnd.f dlaror.f dlarot.f dlatm1.f dlatm2.f dlatm3.f dlatme.f dlatmr.f dlatms.f slagge.f slagsy.f slaran.f slarge.f slarnd.f slaror.f slarot.f slatm1.f slatm2.f slatm3.f slatme.f slatmr.f slatms.f zlagge.f zlaghe.f zlagsy.f zlarge.f zlarnd.f zlaror.f zlarot.f zlatm1.f zlatm2.f zlatm3.f zlatme.f zlatmr.f zlatms.f ----------------------------------------------------------- path: /netlib/lapack/lapack/TIMING/ ----------------------------------------------------------- CBAND.in CBLASA.in CBLASB.in CBLASC.in CGEPTIM.in CNEPTIM.in CSEPTIM.in CSVDTIM.in CTIME.in CTIME2.in DBAND.in DBLASA.in DBLASB.in DBLASC.in DGEPTIM.in DNEPTIM.in DSEPTIM.in DSVDTIM.in DTIME.in DTIME2.in EIG/ LIN/ Makefile Makefile.sgi SBAND.in SBLASA.in SBLASB.in SBLASC.in SGEPTIM.in SNEPTIM.in SSEPTIM.in SSVDTIM.in STIME.in STIME2.in ZBAND.in ZBLASA.in ZBLASB.in ZBLASC.in ZGEPTIM.in ZNEPTIM.in ZSEPTIM.in ZSVDTIM.in ZTIME.in ZTIME2.in cband.in cblasa.in cblasb.in cblasc.in cgeptim.in cneptim.in cseptim.in csvdtim.in ctime.in ctime2.in dband.in dblasa.in dblasb.in dblasc.in dgeptim.in dneptim.in dseptim.in dsvdtim.in dtime.in dtime2.in sband.in sblasa.in sblasb.in sblasc.in sgeptim.in sneptim.in sseptim.in ssvdtim.in stime.in stime2.in zband.in zblasa.in zblasb.in zblasc.in zgeptim.in zneptim.in zseptim.in zsvdtim.in ztime.in ztime2.in ----------------------------------------------------------- path: /netlib/lapack/lapack/TIMING/EIG/ ----------------------------------------------------------- EIGSRC/ Makefile atimin.f ceispack.f claqzh.f clatm4.f ctim21.f ctim22.f ctim26.f ctim51.f ctimee.f deispack.f dlaqzh.f dlatm4.f dmflop.f dopla.f dopla2.f dprtbe.f dprtbg.f dprtbr.f dprtbs.f dprtbv.f dtim21.f dtim22.f dtim26.f dtim51.f dtimee.f ilaenv.f seispack.f slaqzh.f slatm4.f smflop.f sopla.f sopla2.f sprtbe.f sprtbg.f sprtbr.f sprtbs.f sprtbv.f stim21.f stim22.f stim26.f stim51.f stimee.f xlaenv.f zeispack.f zlaqzh.f zlatm4.f ztim21.f ztim22.f ztim26.f ztim51.f ztimee.f ----------------------------------------------------------- path: /netlib/lapack/lapack/TIMING/EIG/EIGSRC/ ----------------------------------------------------------- Makefile cbdsqr.f cgghrd.f chgeqz.f chsein.f chseqr.f claed0.f claed7.f claed8.f claein.f clahqr.f cpteqr.f cstedc.f cstein.f csteqr.f ctgevc.f ctrevc.f dbdsqr.f dgghrd.f dhgeqz.f dhsein.f dhseqr.f dlaebz.f dlaed0.f dlaed1.f dlaed2.f dlaed3.f dlaed4.f dlaed5.f dlaed6.f dlaed7.f dlaed8.f dlaed9.f dlaeda.f dlaein.f dlahqr.f dlasq1.f dlasq2.f dlasq3.f dlasq4.f dpteqr.f dstebz.f dstedc.f dstein.f dsteqr.f dsterf.f dtgevc.f dtrevc.f sbdsqr.f sgghrd.f shgeqz.f shsein.f shseqr.f slaebz.f slaed0.f slaed1.f slaed2.f slaed3.f slaed4.f slaed5.f slaed6.f slaed7.f slaed8.f slaed9.f slaeda.f slaein.f slahqr.f slasq1.f slasq2.f slasq3.f slasq4.f spteqr.f sstebz.f sstedc.f sstein.f ssteqr.f ssterf.f stgevc.f strevc.f zbdsqr.f zgghrd.f zhgeqz.f zhsein.f zhseqr.f zlaed0.f zlaed7.f zlaed8.f zlaein.f zlahqr.f zpteqr.f zstedc.f zstein.f zsteqr.f ztgevc.f ztrevc.f ----------------------------------------------------------- path: /netlib/lapack/lapack/TIMING/LIN/ ----------------------------------------------------------- Makefile atimck.f atimin.f clinpk.f ctimaa.f ctimb2.f ctimb3.f ctimbr.f ctimgb.f ctimge.f ctimgt.f ctimhe.f ctimhp.f ctimhr.f ctimlq.f ctimmg.f ctimmm.f ctimmv.f ctimpb.f ctimpo.f ctimpp.f ctimpt.f ctimql.f ctimqp.f ctimqr.f ctimrq.f ctimsp.f ctimsy.f ctimtb.f ctimtd.f ctimtp.f ctimtr.f deispk.f dlinpk.f dmflop.f dopaux.f dopbl2.f dopbl3.f dopgb.f dopla.f dprtb2.f dprtb3.f dprtb4.f dprtb5.f dprtbl.f dtimaa.f dtimb2.f dtimb3.f dtimbr.f dtimgb.f dtimge.f dtimgt.f dtimhr.f dtimlq.f dtimmg.f dtimmm.f dtimmv.f dtimpb.f dtimpo.f dtimpp.f dtimpt.f dtimql.f dtimqp.f dtimqr.f dtimrq.f dtimsp.f dtimsy.f dtimtb.f dtimtd.f dtimtp.f dtimtr.f icopy.f ilaenv.f seispk.f slinpk.f smflop.f sopaux.f sopbl2.f sopbl3.f sopgb.f sopla.f sprtb2.f sprtb3.f sprtb4.f sprtb5.f sprtbl.f stimaa.f stimb2.f stimb3.f stimbr.f stimgb.f stimge.f stimgt.f stimhr.f stimlq.f stimmg.f stimmm.f stimmv.f stimpb.f stimpo.f stimpp.f stimpt.f stimql.f stimqp.f stimqr.f stimrq.f stimsp.f stimsy.f stimtb.f stimtd.f stimtp.f stimtr.f xlaenv.f zlinpk.f ztimaa.f ztimb2.f ztimb3.f ztimbr.f ztimgb.f ztimge.f ztimgt.f ztimhe.f ztimhp.f ztimhr.f ztimlq.f ztimmg.f ztimmm.f ztimmv.f ztimpb.f ztimpo.f ztimpp.f ztimpt.f ztimql.f ztimqp.f ztimqr.f ztimrq.f ztimsp.f ztimsy.f ztimtb.f ztimtd.f ztimtp.f ztimtr.f ----------------------------------------------------------- for (FOR NON EMAIL USERS ONLY) This tar file path: /netlib/lapack/lapack_alpha/ ----------------------------------------------------------- README lapack_alpha.a ----------------------------------------------------------- for (FOR NON EMAIL USERS ONLY) This tar file path: /netlib/lapack/lapack_hppa/ ----------------------------------------------------------- README lapack_hppa.a ----------------------------------------------------------- for (FOR NON EMAIL USERS ONLY) This tar file path: /netlib/lapack/lapack_rs6k/ ----------------------------------------------------------- README lapack_rs6k.a ----------------------------------------------------------- for (FOR NON EMAIL USERS ONLY) This tar file path: /netlib/lapack/lapack_sgi5/ ----------------------------------------------------------- README.sgi5 lapack_SGI5.a ----------------------------------------------------------- for (FOR NON EMAIL USERS ONLY) This tar file path: /netlib/lapack/lapack_sun4/ ----------------------------------------------------------- README lapack_sun4.a ----------------------------------------------------------- for Subdirectory containing the LAPACK Working Notes path: /netlib/lapack/lawns/ ----------------------------------------------------------- README ----------------------------------------------------------- for (FOR NON EMAIL USERS ONLY) This is a gzip tar path: /netlib/lapack/manpages/ ----------------------------------------------------------- README blas/ equivalence.c man/ ----------------------------------------------------------- path: /netlib/lapack/manpages/blas/ ----------------------------------------------------------- man/ ----------------------------------------------------------- path: /netlib/lapack/manpages/blas/man/ ----------------------------------------------------------- manl/ ----------------------------------------------------------- path: /netlib/lapack/manpages/blas/man/manl/ ----------------------------------------------------------- cgbmv.l cgemm.l cgemv.l cgerc.l cgeru.l chbmv.l chemm.l chemv.l cher.l cher2.l cher2k.l cherk.l chpmv.l chpr.l chpr2.l cscal.l csymm.l csyr2k.l csyrk.l ctbmv.l ctbsv.l ctpmv.l ctpsv.l ctrmm.l ctrmv.l ctrsm.l ctrsv.l dcabs1.l dgbmv.l dgemm.l dgemv.l dger.l dsbmv.l dspmv.l dspr.l dspr2.l dsymm.l dsymv.l dsyr.l dsyr2.l dsyr2k.l dsyrk.l dtbmv.l dtbsv.l dtpmv.l dtpsv.l dtrmm.l dtrmv.l dtrsm.l dtrsv.l lsame.l sgbmv.l sgemm.l sgemv.l sger.l ssbmv.l sspmv.l sspr.l sspr2.l ssymm.l ssymv.l ssyr.l ssyr2.l ssyr2k.l ssyrk.l stbmv.l stbsv.l stpmv.l stpsv.l strmm.l strmv.l strsm.l strsv.l xerbla.l zgbmv.l zgemm.l zgemv.l zgerc.l zgeru.l zhbmv.l zhemm.l zhemv.l zher.l zher2.l zher2k.l zherk.l zhpmv.l zhpr.l zhpr2.l zrotg.l zscal.l zsymm.l zsyr2k.l zsyrk.l ztbmv.l ztbsv.l ztpmv.l ztpsv.l ztrmm.l ztrmv.l ztrsm.l ztrsv.l ----------------------------------------------------------- path: /netlib/lapack/manpages/man/ ----------------------------------------------------------- manl/ ----------------------------------------------------------- path: /netlib/lapack/manpages/man/manl/ ----------------------------------------------------------- cbdsqr.l cgbbrd.l cgbcon.l cgbequ.l cgbrfs.l cgbsv.l cgbsvx.l cgbtf2.l cgbtrf.l cgbtrs.l cgebak.l cgebal.l cgebd2.l cgebrd.l cgecon.l cgeequ.l cgees.l cgeesx.l cgeev.l cgeevx.l cgegs.l cgegv.l cgehd2.l cgehrd.l cgelq2.l cgelqf.l cgels.l cgelss.l cgelsx.l cgeql2.l cgeqlf.l cgeqpf.l cgeqr2.l cgeqrf.l cgerfs.l cgerq2.l cgerqf.l cgesv.l cgesvd.l cgesvx.l cgetf2.l cgetrf.l cgetri.l cgetrs.l cggbak.l cggbal.l cggglm.l cgghrd.l cgglse.l cggqrf.l cggrqf.l cggsvd.l cggsvp.l cgtcon.l cgtrfs.l cgtsv.l cgtsvx.l cgttrf.l cgttrs.l chbev.l chbevd.l chbevx.l chbgst.l chbgv.l chbtrd.l checon.l cheev.l cheevd.l cheevx.l chegs2.l chegst.l chegv.l cherfs.l chesv.l chesvx.l chetd2.l chetf2.l chetrd.l chetrf.l chetri.l chetrs.l chgeqz.l chpcon.l chpev.l chpevd.l chpevx.l chpgst.l chpgv.l chprfs.l chpsv.l chpsvx.l chptrd.l chptrf.l chptri.l chptrs.l chsein.l chseqr.l clabrd.l clacgv.l clacon.l clacpy.l clacrm.l clacrt.l cladiv.l claed0.l claed7.l claed8.l claein.l claesy.l claev2.l clags2.l clagtm.l clahef.l clahqr.l clahrd.l claic1.l clangb.l clange.l clangt.l clanhb.l clanhe.l clanhp.l clanhs.l clanht.l clansb.l clansp.l clansy.l clantb.l clantp.l clantr.l clapll.l clapmt.l claqgb.l claqge.l claqhb.l claqhe.l claqhp.l claqsb.l claqsp.l claqsy.l clar2v.l clarf.l clarfb.l clarfg.l clarft.l clarfx.l clargv.l clarnv.l clartg.l clartv.l clascl.l claset.l clasr.l classq.l claswp.l clasyf.l clatbs.l clatps.l clatrd.l clatrs.l clatzm.l clauu2.l clauum.l cpbcon.l cpbequ.l cpbrfs.l cpbstf.l cpbsv.l cpbsvx.l cpbtf2.l cpbtrf.l cpbtrs.l cpocon.l cpoequ.l cporfs.l cposv.l cposvx.l cpotf2.l cpotrf.l cpotri.l cpotrs.l cppcon.l cppequ.l cpprfs.l cppsv.l cppsvx.l cpptrf.l cpptri.l cpptrs.l cptcon.l cpteqr.l cptrfs.l cptsv.l cptsvx.l cpttrf.l cpttrs.l crot.l cspcon.l cspmv.l cspr.l csprfs.l cspsv.l cspsvx.l csptrf.l csptri.l csptrs.l csrot.l csrscl.l cstedc.l cstein.l csteqr.l csycon.l csymv.l csyr.l csyrfs.l csysv.l csysvx.l csytf2.l csytrf.l csytri.l csytrs.l ctbcon.l ctbrfs.l ctbtrs.l ctgevc.l ctgsja.l ctpcon.l ctprfs.l ctptri.l ctptrs.l ctrcon.l ctrevc.l ctrexc.l ctrrfs.l ctrsen.l ctrsna.l ctrsyl.l ctrti2.l ctrtri.l ctrtrs.l ctzrqf.l cung2l.l cung2r.l cungbr.l cunghr.l cungl2.l cunglq.l cungql.l cungqr.l cungr2.l cungrq.l cungtr.l cunm2l.l cunm2r.l cunmbr.l cunmhr.l cunml2.l cunmlq.l cunmql.l cunmqr.l cunmr2.l cunmrq.l cunmtr.l cupgtr.l cupmtr.l dbdsqr.l ddisna.l dgbbrd.l dgbcon.l dgbequ.l dgbrfs.l dgbsv.l dgbsvx.l dgbtf2.l dgbtrf.l dgbtrs.l dgebak.l dgebal.l dgebd2.l dgebrd.l dgecon.l dgeequ.l dgees.l dgeesx.l dgeev.l dgeevx.l dgegs.l dgegv.l dgehd2.l dgehrd.l dgelq2.l dgelqf.l dgels.l dgelss.l dgelsx.l dgeql2.l dgeqlf.l dgeqpf.l dgeqr2.l dgeqrf.l dgerfs.l dgerq2.l dgerqf.l dgesv.l dgesvd.l dgesvx.l dgetf2.l dgetrf.l dgetri.l dgetrs.l dggbak.l dggbal.l dggglm.l dgghrd.l dgglse.l dggqrf.l dggrqf.l dggsvd.l dggsvp.l dgtcon.l dgtrfs.l dgtsv.l dgtsvx.l dgttrf.l dgttrs.l dhgeqz.l dhsein.l dhseqr.l dlabad.l dlabrd.l dlacon.l dlacpy.l dladiv.l dlae2.l dlaebz.l dlaed0.l dlaed1.l dlaed2.l dlaed3.l dlaed4.l dlaed5.l dlaed6.l dlaed7.l dlaed8.l dlaed9.l dlaeda.l dlaein.l dlaev2.l dlaexc.l dlag2.l dlags2.l dlagtf.l dlagtm.l dlagts.l dlahqr.l dlahrd.l dlaic1.l dlaln2.l dlamch.l dlamrg.l dlangb.l dlange.l dlangt.l dlanhs.l dlansb.l dlansp.l dlanst.l dlansy.l dlantb.l dlantp.l dlantr.l dlanv2.l dlapll.l dlapmt.l dlapy2.l dlapy3.l dlaqgb.l dlaqge.l dlaqsb.l dlaqsp.l dlaqsy.l dlaqtr.l dlar2v.l dlarf.l dlarfb.l dlarfg.l dlarft.l dlarfx.l dlargv.l dlarnv.l dlartg.l dlartv.l dlaruv.l dlas2.l dlascl.l dlaset.l dlasq1.l dlasq2.l dlasq3.l dlasq4.l dlasr.l dlasrt.l dlassq.l dlasv2.l dlaswp.l dlasy2.l dlasyf.l dlatbs.l dlatps.l dlatrd.l dlatrs.l dlatzm.l dlauu2.l dlauum.l dopgtr.l dopmtr.l dorg2l.l dorg2r.l dorgbr.l dorghr.l dorgl2.l dorglq.l dorgql.l dorgqr.l dorgr2.l dorgrq.l dorgtr.l dorm2l.l dorm2r.l dormbr.l dormhr.l dorml2.l dormlq.l dormql.l dormqr.l dormr2.l dormrq.l dormtr.l dpbcon.l dpbequ.l dpbrfs.l dpbstf.l dpbsv.l dpbsvx.l dpbtf2.l dpbtrf.l dpbtrs.l dpocon.l dpoequ.l dporfs.l dposv.l dposvx.l dpotf2.l dpotrf.l dpotri.l dpotrs.l dppcon.l dppequ.l dpprfs.l dppsv.l dppsvx.l dpptrf.l dpptri.l dpptrs.l dptcon.l dpteqr.l dptrfs.l dptsv.l dptsvx.l dpttrf.l dpttrs.l drscl.l dsbev.l dsbevd.l dsbevx.l dsbgst.l dsbgv.l dsbtrd.l dsecnd.l dspcon.l dspev.l dspevd.l dspevx.l dspgst.l dspgv.l dsprfs.l dspsv.l dspsvx.l dsptrd.l dsptrf.l dsptri.l dsptrs.l dstebz.l dstedc.l dstein.l dsteqr.l dsterf.l dstev.l dstevd.l dstevx.l dsycon.l dsyev.l dsyevd.l dsyevx.l dsygs2.l dsygst.l dsygv.l dsyrfs.l dsysv.l dsysvx.l dsytd2.l dsytf2.l dsytrd.l dsytrf.l dsytri.l dsytrs.l dtbcon.l dtbrfs.l dtbtrs.l dtgevc.l dtgsja.l dtpcon.l dtprfs.l dtptri.l dtptrs.l dtrcon.l dtrevc.l dtrexc.l dtrrfs.l dtrsen.l dtrsna.l dtrsyl.l dtrti2.l dtrtri.l dtrtrs.l dtzrqf.l dzsum1.l icmax1.l ilaenv.l izmax1.l lapack.l lsame.l lsamen.l sbdsqr.l scsum1.l sdisna.l second.l sgbbrd.l sgbcon.l sgbequ.l sgbrfs.l sgbsv.l sgbsvx.l sgbtf2.l sgbtrf.l sgbtrs.l sgebak.l sgebal.l sgebd2.l sgebrd.l sgecon.l sgeequ.l sgees.l sgeesx.l sgeev.l sgeevx.l sgegs.l sgegv.l sgehd2.l sgehrd.l sgelq2.l sgelqf.l sgels.l sgelss.l sgelsx.l sgeql2.l sgeqlf.l sgeqpf.l sgeqr2.l sgeqrf.l sgerfs.l sgerq2.l sgerqf.l sgesv.l sgesvd.l sgesvx.l sgetf2.l sgetrf.l sgetri.l sgetrs.l sggbak.l sggbal.l sggglm.l sgghrd.l sgglse.l sggqrf.l sggrqf.l sggsvd.l sggsvp.l sgtcon.l sgtrfs.l sgtsv.l sgtsvx.l sgttrf.l sgttrs.l shgeqz.l shsein.l shseqr.l slabad.l slabrd.l slacon.l slacpy.l sladiv.l slae2.l slaebz.l slaed0.l slaed1.l slaed2.l slaed3.l slaed4.l slaed5.l slaed6.l slaed7.l slaed8.l slaed9.l slaeda.l slaein.l slaev2.l slaexc.l slag2.l slags2.l slagtf.l slagtm.l slagts.l slahqr.l slahrd.l slaic1.l slaln2.l slamch.l slamrg.l slangb.l slange.l slangt.l slanhs.l slansb.l slansp.l slanst.l slansy.l slantb.l slantp.l slantr.l slanv2.l slapll.l slapmt.l slapy2.l slapy3.l slaqgb.l slaqge.l slaqsb.l slaqsp.l slaqsy.l slaqtr.l slar2v.l slarf.l slarfb.l slarfg.l slarft.l slarfx.l slargv.l slarnv.l slartg.l slartv.l slaruv.l slas2.l slascl.l slaset.l slasq1.l slasq2.l slasq3.l slasq4.l slasr.l slasrt.l slassq.l slasv2.l slaswp.l slasy2.l slasyf.l slatbs.l slatps.l slatrd.l slatrs.l slatzm.l slauu2.l slauum.l sopgtr.l sopmtr.l sorg2l.l sorg2r.l sorgbr.l sorghr.l sorgl2.l sorglq.l sorgql.l sorgqr.l sorgr2.l sorgrq.l sorgtr.l sorm2l.l sorm2r.l sormbr.l sormhr.l sorml2.l sormlq.l sormql.l sormqr.l sormr2.l sormrq.l sormtr.l spbcon.l spbequ.l spbrfs.l spbstf.l spbsv.l spbsvx.l spbtf2.l spbtrf.l spbtrs.l spocon.l spoequ.l sporfs.l sposv.l sposvx.l spotf2.l spotrf.l spotri.l spotrs.l sppcon.l sppequ.l spprfs.l sppsv.l sppsvx.l spptrf.l spptri.l spptrs.l sptcon.l spteqr.l sptrfs.l sptsv.l sptsvx.l spttrf.l spttrs.l srscl.l ssbev.l ssbevd.l ssbevx.l ssbgst.l ssbgv.l ssbtrd.l sspcon.l sspev.l sspevd.l sspevx.l sspgst.l sspgv.l ssprfs.l sspsv.l sspsvx.l ssptrd.l ssptrf.l ssptri.l ssptrs.l sstebz.l sstedc.l sstein.l ssteqr.l ssterf.l sstev.l sstevd.l sstevx.l ssycon.l ssyev.l ssyevd.l ssyevx.l ssygs2.l ssygst.l ssygv.l ssyrfs.l ssysv.l ssysvx.l ssytd2.l ssytf2.l ssytrd.l ssytrf.l ssytri.l ssytrs.l stbcon.l stbrfs.l stbtrs.l stgevc.l stgsja.l stpcon.l stprfs.l stptri.l stptrs.l strcon.l strevc.l strexc.l strrfs.l strsen.l strsna.l strsyl.l strti2.l strtri.l strtrs.l stzrqf.l xerbla.l zbdsqr.l zdrot.l zdrscl.l zgbbrd.l zgbcon.l zgbequ.l zgbrfs.l zgbsv.l zgbsvx.l zgbtf2.l zgbtrf.l zgbtrs.l zgebak.l zgebal.l zgebd2.l zgebrd.l zgecon.l zgeequ.l zgees.l zgeesx.l zgeev.l zgeevx.l zgegs.l zgegv.l zgehd2.l zgehrd.l zgelq2.l zgelqf.l zgels.l zgelss.l zgelsx.l zgeql2.l zgeqlf.l zgeqpf.l zgeqr2.l zgeqrf.l zgerfs.l zgerq2.l zgerqf.l zgesv.l zgesvd.l zgesvx.l zgetf2.l zgetrf.l zgetri.l zgetrs.l zggbak.l zggbal.l zggglm.l zgghrd.l zgglse.l zggqrf.l zggrqf.l zggsvd.l zggsvp.l zgtcon.l zgtrfs.l zgtsv.l zgtsvx.l zgttrf.l zgttrs.l zhbev.l zhbevd.l zhbevx.l zhbgst.l zhbgv.l zhbtrd.l zhecon.l zheev.l zheevd.l zheevx.l zhegs2.l zhegst.l zhegv.l zherfs.l zhesv.l zhesvx.l zhetd2.l zhetf2.l zhetrd.l zhetrf.l zhetri.l zhetrs.l zhgeqz.l zhpcon.l zhpev.l zhpevd.l zhpevx.l zhpgst.l zhpgv.l zhprfs.l zhpsv.l zhpsvx.l zhptrd.l zhptrf.l zhptri.l zhptrs.l zhsein.l zhseqr.l zlabrd.l zlacgv.l zlacon.l zlacpy.l zlacrm.l zlacrt.l zladiv.l zlaed0.l zlaed7.l zlaed8.l zlaein.l zlaesy.l zlaev2.l zlags2.l zlagtm.l zlahef.l zlahqr.l zlahrd.l zlaic1.l zlangb.l zlange.l zlangt.l zlanhb.l zlanhe.l zlanhp.l zlanhs.l zlanht.l zlansb.l zlansp.l zlansy.l zlantb.l zlantp.l zlantr.l zlapll.l zlapmt.l zlaqgb.l zlaqge.l zlaqhb.l zlaqhe.l zlaqhp.l zlaqsb.l zlaqsp.l zlaqsy.l zlar2v.l zlarf.l zlarfb.l zlarfg.l zlarft.l zlarfx.l zlargv.l zlarnv.l zlartg.l zlartv.l zlascl.l zlaset.l zlasr.l zlassq.l zlaswp.l zlasyf.l zlatbs.l zlatps.l zlatrd.l zlatrs.l zlatzm.l zlauu2.l zlauum.l zpbcon.l zpbequ.l zpbrfs.l zpbstf.l zpbsv.l zpbsvx.l zpbtf2.l zpbtrf.l zpbtrs.l zpocon.l zpoequ.l zporfs.l zposv.l zposvx.l zpotf2.l zpotrf.l zpotri.l zpotrs.l zppcon.l zppequ.l zpprfs.l zppsv.l zppsvx.l zpptrf.l zpptri.l zpptrs.l zptcon.l zpteqr.l zptrfs.l zptsv.l zptsvx.l zpttrf.l zpttrs.l zrot.l zspcon.l zspmv.l zspr.l zsprfs.l zspsv.l zspsvx.l zsptrf.l zsptri.l zsptrs.l zsrscl.l zstedc.l zstein.l zsteqr.l zsycon.l zsymv.l zsyr.l zsyrfs.l zsysv.l zsysvx.l zsytf2.l zsytrf.l zsytri.l zsytrs.l ztbcon.l ztbrfs.l ztbtrs.l ztgevc.l ztgsja.l ztpcon.l ztprfs.l ztptri.l ztptrs.l ztrcon.l ztrevc.l ztrexc.l ztrrfs.l ztrsen.l ztrsna.l ztrsyl.l ztrti2.l ztrtri.l ztrtrs.l ztzrqf.l zung2l.l zung2r.l zungbr.l zunghr.l zungl2.l zunglq.l zungql.l zungqr.l zungr2.l zungrq.l zungtr.l zunm2l.l zunm2r.l zunmbr.l zunmhr.l zunml2.l zunmlq.l zunmql.l zunmqr.l zunmr2.l zunmrq.l zunmtr.l zupgtr.l zupmtr.l ----------------------------------------------------------- for single precision real LAPACK routines path: /netlib/lapack/single/ ----------------------------------------------------------- # -------------------------------------------------------- # Available SIMPLE and DIVIDE AND CONQUER DRIVER routines: # -------------------------------------------------------- .depend scsum1.f sgbtf2.f sgebd2.f sgehd2.f sgelq2.f sgeql2.f sgeqr2.f sgerq2.f sgesv.f for Solves a general system of linear equations AX=B. gams d2a1 sgbsv.f for Solves a general banded system of linear equations AX=B. gams d2a2 sgetf2.f sgtsv.f for Solves a general tridiagonal system of linear equations AX=B. gams d2a2a slabad.f slabrd.f slacon.f slacpy.f sladiv.f slae2.f slaebz.f slaed0.f slaed1.f slaed2.f slaed3.f slaed4.f slaed5.f slaed6.f slaed7.f slaed8.f slaed9.f slaeda.f slaein.f slaev2.f slaexc.f slag2.f slags2.f slagtf.f slagtm.f slagts.f slahqr.f slahrd.f slaic1.f slaln2.f slamrg.f slangb.f slange.f slangt.f slanhs.f slansb.f slansp.f slanst.f slansy.f slantb.f slantp.f slantr.f slanv2.f slapll.f slapmt.f slapy2.f slapy3.f slaqgb.f slaqge.f slaqsb.f slaqsp.f slaqsy.f slaqtr.f slar2v.f slarf.f slarfb.f slarfg.f slarft.f slarfx.f slargv.f slarnv.f slartg.f slartv.f slaruv.f slas2.f slascl.f slaset.f slasq1.f slasq2.f slasq3.f slasq4.f slasr.f slasrt.f slassq.f slasv2.f slaswp.f slasy2.f slasyf.f slatbs.f slatps.f slatrd.f slatrs.f slatzm.f slauu2.f slauum.f sorg2l.f sorg2r.f sorgl2.f sorgr2.f sorm2l.f sorm2r.f sorml2.f sormr2.f spbtf2.f sposv.f for Solves a symmetric positive definite system of linear equations AX=B. gams d2b1b spotf2.f sppsv.f for Solves a symmetric positive definite system of linear equations AX=B, where A is held in packed storage. gams d2b1b spbsv.f for Solves a symmetric positive definite banded system of linear equations AX=B. gams d2b2 sptsv.f for Solves a symmetric positive definite tridiagonal system of linear equations AX=B. gams d2b2a srscl.f ssygs2.f ssysv.f for Solves a real symmetric indefinite system of linear equations AX=B. gams d2b1a sspsv.f for Solves a real symmetric indefinite system of linear equations AX=B, where A is held in packed storage. gams d2b1a sgels.f for Computes the least squares solution to an over-determined system of linear equations, A X=B or A**H X=B, or the minimum norm solution of an under-determined system, where A is a general rectangular matrix of full rank, using a QR or LQ factorization of A. gams d9a1 sgglse.f for Solves the LSE (Constrained Linear Least Squares Problem) using the GRQ (Generalized RQ) factorization gams d9b1 sggglm.f for Solves the GLM (Generalized Linear Regression Model) using the GQR (Generalized QR) factorization ssyev.f for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric matrix. gams d4a1 ssyevd.f for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a1 sspev.f for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric matrix in packed storage. gams d4a1 sspevd.f for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric matrix in packed storage. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a1 ssbev.f for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric band matrix. gams d4a1, d4a6 ssbevd.f for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric band matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a1, d4a6 sstev.f for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric tridiagonal matrix. gams d4a1, d4a5 sstevd.f for Computes all eigenvalues, and optionally, eigenvectors of a real symmetric tridiagonal matrix. If eigenvectors are desired, it uses a divide and conquer algorithm. gams d4a1, d4a5 sgees.f for Computes the eigenvalues and Schur factorization of a general matrix, and orders the factorization so that selected eigenvalues are at the top left of the Schur form. gams d4a2 sgeev.f for Computes the eigenvalues and left and right eigenvectors of a general matrix. gams d4a2 sgesvd.f for Computes the singular value decomposition (SVD) of a general rectangular matrix. gams d6 ssygv.f for Computes all eigenvalues and the eigenvectors of a generalized symmetric-definite generalized eigenproblem, Ax= lambda Bx, ABx= lambda x, or BAx= lambda x. gams d4b1 sspgv.f for Computes all eigenvalues and eigenvectors of a generalized symmetric-definite generalized eigenproblem, Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, where A and B are in packed storage. gams d4b1 ssbgv.f for Computes all the eigenvalues, and optionally, the eigenvectors of a real generalized symmetric-definite banded eigenproblem, of the form A*x=(lambda)*B*x. A and B are assumed to be symmetric and banded, and B is also positive definite. sgegs.f for Computes the generalized eigenvalues, Schur form, and left and/or right Schur vectors for a pair of nonsymmetric matrices sgegv.f for Computes the generalized eigenvalues, and left and/or right generalized eigenvectors for a pair of nonsymmetric matrices sggsvd.f for Computes the Generalized Singular Value Decomposition # --------------------------------- # Available EXPERT DRIVER routines: # --------------------------------- sgesvx.f for Solves a general system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2a1 sgbsvx.f for Solves a general banded system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2a2 sgtsvx.f for Solves a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, and provides an estimate of the condition number and error bounds on the solution. gams d2a2a sposvx.f for Solves a symmetric positive definite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2b1b sppsvx.f for Solves a symmetric positive definite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2b1b spbsvx.f for Solves a symmetric positive definite banded system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2b2 sptsvx.f for Solves a symmetric positive definite tridiagonal system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2b2a ssysvx.f for Solves a real symmetric indefinite system of linear equations AX=B, and provides an estimate of the condition number and error bounds on the solution. gams d2b1a sspsvx.f for Solves a real symmetric indefinite system of linear equations AX=B, where A is held in packed storage, and provides an estimate of the condition number and error bounds on the solution. gams d2b1a sgelsx.f for Computes the minimum norm least squares solution to an over- or under-determined system of linear equations A X=B, using a complete orthogonal factorization of A. gams d9a1 sgelss.f for Computes the minimum norm least squares solution to an over- or under-determined system of linear equations A X=B, using the singular value decomposition of A. gams d9a1 ssyevx.f for Computes selected eigenvalues and eigenvectors of a symmetric matrix. gams d4a1 sspevx.f for Computes selected eigenvalues and eigenvectors of a symmetric matrix in packed storage. gams d4a1 ssbevx.f for Computes selected eigenvalues and eigenvectors of a symmetric band matrix. gams d4a1, d4a6 sstevx.f for Computes selected eigenvalues and eigenvectors of a real symmetric tridiagonal matrix. gams d4a1, d4a5 sgeesx.f for Computes the eigenvalues and Schur factorization of a general matrix, orders the factorization so that selected eigenvalues are at the top left of the Schur form, and computes reciprocal condition numbers for the average of the selected eigenvalues, and for the associated right invariant subspace. gams d4a2 sgeevx.f for Computes the eigenvalues and left and right eigenvectors of a general matrix, with preliminary balancing of the matrix, and computes reciprocal condition numbers for the eigenvalues and right eigenvectors. gams d4a2 # --------------------------------- # Available COMPUTATIONAL routines: # --------------------------------- sbdsqr.f for Computes the singular value decomposition (SVD) of a real bidiagonal matrix, using the bidiagonal QR algorithm. gams d6 sdisna.f for Computes the reciprocal condition numbers for the eigenvectors of a real symmetric or complex Hermitian matrix or for the left or right singular vectors of a general matrix. sgbbrd.f Reduces a general band matrix to real upper bidiagonal form by an orthogonal transformation. sgbcon.f for Estimates the reciprocal of the condition number of a general band matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by SGBTRF. gams d2a2 sgbequ.f for Computes row and column scalings to equilibrate a general band matrix and reduce its condition number. gams d2a2 sgbrfs.f for Improves the computed solution to a general banded system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2a2 sgbtrf.f for Computes an LU factorization of a general band matrix, using partial pivoting with row interchanges. gams d2a2 sgbtrs.f for Solves a general banded system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by SGBTRF. gams d2a2 sgebak.f for Transforms eigenvectors of a balanced matrix to those of the original matrix supplied to SGEBAL. gams d4c4 sgebal.f for Balances a general matrix in order to improve the accuracy of computed eigenvalues. gams d4c1a sgebrd.f for Reduces a general rectangular matrix to real bidiagonal form by an orthogonal transformation. gams d6 sgecon.f for Estimates the reciprocal of the condition number of a general matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by SGETRF. gams d2a1 sgeequ.f for Computes row and column scalings to equilibrate a general rectangular matrix and reduce its condition number. gams d2a1 sgehrd.f for Reduces a general matrix to upper Hessenberg form by an orthogonal similarity transformation. gams d4c1b2 sgelqf.f for Computes an LQ factorization of a general rectangular matrix. gams d5 sgeqlf.f for Computes a QL factorization of a general rectangular matrix. gams d5 sgeqpf.f for Computes a QR factorization with column pivoting of a general rectangular matrix. gams d5 sgeqrf.f for Computes a QR factorization of a general rectangular matrix. gams d5 sgerfs.f for Improves the computed solution to a general system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2a1 sgerqf.f for Computes an RQ factorization of a general rectangular matrix. gams d5 sgetrf.f for Computes an LU factorization of a general matrix, using partial pivoting with row interchanges. gams d2a1 sgetri.f for Computes the inverse of a general matrix, using the LU factorization computed by SGETRF. gams d2a1 sgetrs.f for Solves a general system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by SGETRF. gams d2a1 sggbak.f for Forms the right or left eigenvectors of the generalized eigenvalue problem by backward transformation on the computed eigenvectors of the balanced pair of matrices output by SGGBAL. sggbal.f for Balances a pair of general real matrices for the generalized eigenvalue problem A x = lambda B x. sgghrd.f for Reduces a pair of real matrices to generalized upper Hessenberg form using orthogonal transformations sggqrf.f for Computes a generalized QR factorization of a pair of matrices. sggrqf.f for Computes a generalized RQ factorization of a pair of matrices. sggsvp.f for Computes orthogonal matrices as a preprocessing step for computing the generalized singular value decomposition sgtcon.f for Estimates the reciprocal of the condition number of a general tridiagonal matrix, in either the 1-norm or the infinity-norm, using the LU factorization computed by SGTTRF. gams d2a2a sgtrfs.f for Improves the computed solution to a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, and provides forward and backward error bounds for the solution. gams d2a2a sgttrf.f for Computes an LU factorization of a general tridiagonal matrix, using partial pivoting with row interchanges. gams d2a2a sgttrs.f for Solves a general tridiagonal system of linear equations AX=B, A**T X=B or A**H X=B, using the LU factorization computed by SGTTRF. gams d2a2a shgeqz.f for Implements a single-/double-shift version of the QZ method for finding the generalized eigenvalues of the equation det(A - w(i) B) = 0 shsein.f for Computes specified right and/or left eigenvectors of an upper Hessenberg matrix by inverse iteration. gams d4c3 shseqr.f for Computes the eigenvalues and Schur factorization of an upper Hessenberg matrix, using the multishift QR algorithm. gams d4c2b sopgtr.f for Generates the orthogonal transformation matrix from a reduction to tridiagonal form determined by SSPTRD. gams d4c1b1 sopmtr.f for Multiplies a general matrix by the orthogonal transformation matrix from a reduction to tridiagonal form determined by SSPTRD. gams d4c4 sorgbr.f for Generates the orthogonal transformation matrices from a reduction to bidiagonal form determined by SGEBRD. gams d6 sorghr.f for Generates the orthogonal transformation matrix from a reduction to Hessenberg form determined by SGEHRD. gams d4c1b2 sorglq.f for Generates all or part of the orthogonal matrix Q from an LQ factorization determined by SGELQF. gams d5 sorgql.f for Generates all or part of the orthogonal matrix Q from a QL factorization determined by SGEQLF. gams d5 sorgqr.f for Generates all or part of the orthogonal matrix Q from a QR factorization determined by SGEQRF. gams d5 sorgrq.f for Generates all or part of the orthogonal matrix Q from an RQ factorization determined by SGERQF. gams d5 sorgtr.f for Generates the orthogonal transformation matrix from a reduction to tridiagonal form determined by SSYTRD. gams d4c1b1 sormbr.f for Multiplies a general matrix by one of the orthogonal transformation matrices from a reduction to bidiagonal form determined by SGEBRD. gams d6 sormhr.f for Multiplies a general matrix by the orthogonal transformation matrix from a reduction to Hessenberg form determined by SGEHRD. gams d4c4 sormlq.f for Multiplies a general matrix by the orthogonal matrix from an LQ factorization determined by SGELQF. gams d5 sormql.f for Multiplies a general matrix by the orthogonal matrix from a QL factorization determined by SGEQLF. gams d5 sormqr.f for Multiplies a general matrix by the orthogonal matrix from a QR factorization determined by SGEQRF. gams d5 sormrq.f for Multiplies a general matrix by the orthogonal matrix from an RQ factorization determined by SGERQF. gams d5 sormtr.f for Multiplies a general matrix by the orthogonal transformation matrix from a reduction to tridiagonal form determined by SSYTRD. gams d4c4 spbcon.f for Estimates the reciprocal of the condition number of a symmetric positive definite band matrix, using the Cholesky factorization computed by SPBTRF. gams d2b2 spbequ.f for Computes row and column scalings to equilibrate a symmetric positive definite band matrix and reduce its condition number. gams d2b2 spbrfs.f for Improves the computed solution to a symmetric positive definite banded system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2b2 spbstf.f for Computes a split Cholesky factorization of a real symmetric positive definite band matrix. spbtrf.f for Computes the Cholesky factorization of a symmetric positive definite band matrix. gams d2b2 spbtrs.f for Solves a symmetric positive definite banded system of linear equations AX=B, using the Cholesky factorization computed by SPBTRF. gams d2b2 spocon.f for Estimates the reciprocal of the condition number of a symmetric positive definite matrix, using the Cholesky factorization computed by SPOTRF. gams d2b1b spoequ.f for Computes row and column scalings to equilibrate a symmetric positive definite matrix and reduce its condition number. gams d2b1b sporfs.f for Improves the computed solution to a symmetric positive definite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2b1b spotrf.f for Computes the Cholesky factorization of a symmetric positive definite matrix. gams d2b1b spotri.f for Computes the inverse of a symmetric positive definite matrix, using the Cholesky factorization computed by SPOTRF. gams d2b1b spotrs.f for Solves a symmetric positive definite system of linear equations AX=B, using the Cholesky factorization computed by SPOTRF. gams d2b1b sppcon.f for Estimates the reciprocal of the condition number of a symmetric positive definite matrix in packed storage, using the Cholesky factorization computed by SPPTRF. gams d2b1b sppequ.f for Computes row and column scalings to equilibrate a symmetric positive definite matrix in packed storage and reduce its condition number. gams d2b1b spprfs.f for Improves the computed solution to a symmetric positive definite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2b1b spptrf.f for Computes the Cholesky factorization of a symmetric positive definite matrix in packed storage. gams d2b1b spptri.f for Computes the inverse of a symmetric positive definite matrix in packed storage, using the Cholesky factorization computed by SPPTRF. gams d2b1b spptrs.f for Solves a symmetric positive definite system of linear equations AX=B, where A is held in packed storage, using the Cholesky factorization computed by SPPTRF. gams d2b1b sptcon.f for Computes the reciprocal of the condition number of a symmetric positive definite tridiagonal matrix, using the LDL**H factorization computed by SPTTRF. gams d2b2a spteqr.f for Computes all eigenvalues and eigenvectors of a real symmetric positive definite tridiagonal matrix, by computing the SVD of its bidiagonal Cholesky factor. gams d4c2a sptrfs.f for Improves the computed solution to a symmetric positive definite tridiagonal system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2b2a spttrf.f for Computes the LDL**H factorization of a symmetric positive definite tridiagonal matrix. gams d2b2a spttrs.f for Solves a symmetric positive definite tridiagonal system of linear equations, using the LDL**H factorization computed by SPTTRF. gams d2b2a ssbgst.f for Reduces a real symmetric-definite banded generalized eigenproblem A x = lambda B x to standard form, where B has been factorized by SPBSTF (Crawford's algorithm). ssbtrd.f for Reduces a symmetric band matrix to real symmetric tridiagonal form by an orthogonal similarity transformation. gams d4c1b1 sspcon.f for Estimates the reciprocal of the condition number of a real symmetric indefinite matrix in packed storage, using the factorization computed by SSPTRF. gams d2b1a sspgst.f for Reduces a symmetric-definite generalized eigenproblem Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, to standard form, where A and B are held in packed storage, and B has been factorized by SPPTRF. gams d4c1c ssprfs.f for Improves the computed solution to a real symmetric indefinite system of linear equations AX=B, where A is held in packed storage, and provides forward and backward error bounds for the solution. gams d2b1a ssptrd.f for Reduces a symmetric matrix in packed storage to real symmetric tridiagonal form by an orthogonal similarity transformation. gams d4c1b1 ssptrf.f for Computes the factorization of a real symmetric-indefinite matrix in packed storage, using the diagonal pivoting method. gams d2b1a ssptri.f for Computes the inverse of a real symmetric indefinite matrix in packed storage, using the factorization computed by SSPTRF. gams d2b1a ssptrs.f for Solves a real symmetric indefinite system of linear equations AX=B, where A is held in packed storage, using the factorization computed by SSPTRF. gams d2b1a sstebz.f for Computes selected eigenvalues of a real symmetric tridiagonal matrix by bisection. gams d4c2a sstedc.f for Computes all eigenvalues and, optionally, eigenvectors of a symmetric tridiagonal matrix using the divide and conquer algorithm. sstein.f for Computes selected eigenvectors of a real symmetric tridiagonal matrix by inverse iteration. gams d4c3 ssteqr.f for Computes all eigenvalues and eigenvectors of a real symmetric tridiagonal matrix, using the implicit QL or QR algorithm. gams d4a1, d4a5, d4c2a ssterf.f for Computes all eigenvalues of a real symmetric tridiagonal matrix, using a root-free variant of the QL or QR algorithm. gams d4c2a ssycon.f for Estimates the reciprocal of the condition number of a real symmetric indefinite matrix, using the factorization computed by SSYTRF. gams d2b1a ssygst.f for Reduces a symmetric-definite generalized eigenproblem Ax= lambda Bx, ABx= lambda x, or BAx= lambda x, to standard form, where B has been factorized by SPOTRF. gams d4c1c ssyrfs.f for Improves the computed solution to a real symmetric indefinite system of linear equations AX=B, and provides forward and backward error bounds for the solution. gams d2b1a ssytd2.f ssytf2.f ssytrd.f for Reduces a symmetric matrix to real symmetric tridiagonal form by an orthogonal similarity transformation. gams d4c1b1 ssytrf.f for Computes the factorization of a real symmetric-indefinite matrix, using the diagonal pivoting method. gams d2b1a ssytri.f for Computes the inverse of a real symmetric indefinite matrix, using the factorization computed by SSYTRF. gams d2b1a ssytrs.f for Solves a real symmetric indefinite system of linear equations AX=B, using the factorization computed by SSPTRF. gams d2b1a stbcon.f for Estimates the reciprocal of the condition number of a triangular band matrix, in either the 1-norm or the infinity-norm. gams d2a2, d2a3 stbrfs.f for Provides forward and backward error bounds for the solution of a triangular banded system of linear equations AX=B, A**T X=B or A**H X=B. gams d2a2, d2a3 stbtrs.f for Solves a triangular banded system of linear equations AX=B, A**T X=B or A**H X=B. gams d2a2, d2a3 stgevc.f for Computes some or all of the right and/or left generalized eigenvectors of a pair of upper triangular matrices. gams d4b2 stgsja.f for Computes the generalized singular value decomposition of two real upper triangular (or trapezoidal) matrices as output by SGGSVP. gams d6 stpcon.f for Estimates the reciprocal of the condition number of a triangular matrix in packed storage, in either the 1-norm or the infinity-norm. gams d2a3 stprfs.f for Provides forward and backward error bounds for the solution of a triangular system of linear equations AX=B, A**T X=B or A**H X=B, where A is held in packed storage. gams d2a3 stptri.f for Computes the inverse of a triangular matrix in packed storage. gams d2a3 stptrs.f for Solves a triangular system of linear equations AX=B, A**T X=B or A**H X=B, where A is held in packed storage. gams d2a3 strcon.f for Estimates the reciprocal of the condition number of a triangular matrix, in either the 1-norm or the infinity-norm. gams d2a3 strevc.f for Computes some or all of the right and/or left eigenvectors of an upper quasi-triangular matrix. gams d4c3 strexc.f for Reorders the Schur factorization of a matrix by an orthogonal similarity transformation. gams d4c strrfs.f for Provides forward and backward error bounds for the solution of a triangular system of linear equations A X=B, A**T X=B or A**H X=B. gams d2a3 strsen.f for Reorders the Schur factorization of a matrix in order to find an orthonormal basis of a right invariant subspace corresponding to selected eigenvalues, and returns reciprocal condition numbers (sensitivities) of the average of the cluster of eigenvalues and of the invariant subspace. gams d4c strsna.f for Estimates the reciprocal condition numbers (sensitivities) of selected eigenvalues and eigenvectors of an upper quasi-triangular matrix. gams d4c strsyl.f for Solves the Sylvester matrix equation A X +/- X B=C where A and B are upper quasi-triangular, and may be transposed. gams d8 strti2.f strtri.f for Computes the inverse of a triangular matrix. gams d2a3 strtrs.f for Solves a triangular system of linear equations AX=B, A**T X=B or A**H X=B. gams d2a3 stzrqf.f for Computes an RQ factorization of an upper trapezoidal matrix. gams d5 ----------------------------------------------------------- for Subdirectory containing the testing routines for path: /netlib/lapack/testing/ ----------------------------------------------------------- ####################################### # Index for lapack/testing # ####################################### eig/ for Subdirectory of Eigenproblem Testing lin/ for Subdirectory of Linear Equation Testing matgen/ for Subdirectory of Matrix Generation Routines (used in testing and timing directories) # ======================================= # Input Files for Linear Equation Testing # ======================================= stest.in for Data file for linear equations/linear least squares test programs prec single dtest.in for Data file for linear equations/linear least squares test programs prec double ctest.in for Data file for linear equations/linear least squares test programs prec complex ztest.in for Data file for linear equations/linear least squares test programs prec doublecomplex # ======================================= # Input Files for Eigenproblem Testing # ======================================= nep.in for Data file for testing the (s,d,c,z) Nonsymmetric Eigenproblem computational routines prec single, double, complex, doublecomplex sep.in for Data file for testing the (s,d,c,z) Symmetric Eigenproblem computational and simple/expert driver routines prec single, double, complex, doublecomplex svd.in for Data file for testing the (s,d,c,z) Singular Value Decomposition computational and simple/expert driver routines prec single, double, complex, doublecomplex sec.in for Data file for testing real Eigen Condition Routines prec single dec.in for Data file for testing real Eigen Condition Routines prec double cec.in for Data file for testing complex Eigen Condition Routines prec complex zec.in for Data file for testing complex Eigen Condition Routines prec doublecomplex sed.in for Data file for testing real Nonsymmetric Eigenvalue Driver prec single ded.in for Data file for testing real Nonsymmetric Eigenvalue Driver prec double ced.in for Data file for testing complex Nonsymmetric Eigenvalue Driver prec complex zed.in for Data file for testing complex Nonsymmetric Eigenvalue Driver prec doublecomplex sgg.in for Data file for testing the real Nonsymmetric Generalized Eigenvalue Problem routines prec single dgg.in for Data file for testing the real Nonsymmetric Generalized Eigenvalue Problem routines prec double cgg.in for Data file for testing the complex Nonsymmetric Generalized Eigenvalue Problem routines prec complex zgg.in for Data file for testing the complex Nonsymmetric Generalized Eigenvalue Problem routines prec doublecomplex ssb.in for Data file for testing real Symmetric Banded Eigenvalue Problem routines prec single dsb.in for Data file for testing real Symmetric Banded Eigenvalue Problem routines prec double csb.in for Data file for testing complex Symmetric Banded Eigenvalue Problem routines prec complex zsb.in for Data file for testing complex Symmetric Banded Eigenvalue Problem routines prec doublecomplex ssg.in for Data file for testing real Symmetric Generalized Eigenvalue Problem routines prec single dsg.in for Data file for testing real Symmetric Generalized Eigenvalue Problem routines prec double csg.in for Data file for testing complex Symmetric Generalized Eigenvalue Problem routines prec complex zsg.in for Data file for testing complex Symmetric Generalized Eigenvalue Problem routines prec doublecomplex sbal.in for Data file for testing SGEBAL prec single dbal.in for Data file for testing DGEBAL prec double cbal.in for Data file for testing CGEBAL prec complex zbal.in for Data file for testing ZGEBAL prec doublecomplex sbak.in for Data file for testing SGEBAK prec single dbak.in for Data file for testing DGEBAK prec double cbak.in for Data file for testing CGEBAK prec complex zbak.in for Data file for testing ZGEBAK prec doublecomplex sgbal.in for Data file for testing SGGBAL prec single dgbal.in for Data file for testing DGGBAL prec double cgbal.in for Data file for testing CGGBAL prec complex zgbal.in for Data file for testing ZGGBAL prec doublecomplex sgbak.in for Data file for testing SGGBAK prec single dgbak.in for Data file for testing DGGBAK prec double cgbak.in for Data file for testing CGGBAK prec complex zgbak.in for Data file for testing ZGGBAK prec doublecomplex sbb.in for Data file for testing banded SVD routines prec single dbb.in for Data file for testing banded SVD routines prec double cbb.in for Data file for testing banded SVD routines prec complex zbb.in for Data file for testing banded SVD routines prec complex16 glm.in for Data file for testing the (s, d, c, z) GLM routines prec single, double, complex, doublecomplex gqr.in for Data file for testing the (s, d, c, z) GQR and GRQ routines prec single, double, complex, doublecomplex gsv.in for Data file for testing the (s, d, c, z) GSVD routines prec single, double, complex, doublecomplex lse.in for Data file for testing the (s, d, c, z) LSE routines prec single, double, complex, doublecomplex ----------------------------------------------------------- for Subdirectory of Eigenproblem Testing path: /netlib/lapack/testing/eig/ ----------------------------------------------------------- ####################################### # Index for lapack/testing/eig # ####################################### alahdg.f alareq.f alarqg.f alasmg.f alasum.f alasvm.f cbdt01.f cbdt02.f cbdt03.f cchkgb.f cchkgk.f cchkgl.f cget02.f cget10.f cget22.f cget23.f cget24.f cget35.f cget36.f cget37.f cget38.f cget51.f cget52.f cglmts.f cgqrts.f cgrqts.f cgsvts.f chbt21.f chet21.f chet22.f chkxer.f chpt21.f chst01.f clarfy.f clarhs.f clatm4.f clsets.f csbmv.f csgt01.f cslect.f cstt21.f cunt01.f cunt03.f dbdt01.f dbdt02.f dbdt03.f dchkgb.f dchkgk.f dchkgl.f dget02.f dget10.f dget22.f dget23.f dget24.f dget31.f dget32.f dget33.f dget34.f dget35.f dget36.f dget37.f dget38.f dget39.f dget51.f dget52.f dget53.f dglmts.f dgqrts.f dgrqts.f dgsvts.f dhst01.f dlafts.f dlahd2.f dlarfy.f dlarhs.f dlasum.f dlatb9.f dlatm4.f dlsets.f dort01.f dort03.f dsbt21.f dsgt01.f dslect.f dspt21.f dstech.f dstect.f dstt21.f dstt22.f dsvdch.f dsvdct.f dsxt1.f dsyt21.f dsyt22.f sbdt01.f sbdt02.f sbdt03.f schkgb.f schkgk.f schkgl.f sget02.f sget10.f sget22.f sget23.f sget24.f sget31.f sget32.f sget33.f sget34.f sget35.f sget36.f sget37.f sget38.f sget39.f sget51.f sget52.f sget53.f sglmts.f sgqrts.f sgrqts.f sgsvts.f shst01.f slafts.f slahd2.f slarfy.f slarhs.f slasum.f slatb9.f slatm4.f slsets.f sort01.f sort03.f ssbt21.f ssgt01.f sslect.f sspt21.f sstech.f sstect.f sstt21.f sstt22.f ssvdch.f ssvdct.f ssxt1.f ssyt21.f ssyt22.f xerbla.f for Special version of this routine used in testing ilaenv.f for Special version of this routine for testing and timing purposes xlaenv.f for Resets ILAENV values for testing purposes # ========================================== # Available Eigenproblem Testing Routines # ========================================== schkee.f for Test program driver for eigenproblem testing prec single dchkee.f for Test program driver for eigenproblem testing prec double cchkee.f for Test program driver for eigenproblem testing prec complex zbdt01.f zbdt02.f zbdt03.f zchkee.f for Test program driver for eigenproblem testing prec doublecomplex # === schkbb.f for Checks the banded SVD routine SGBBRD prec single dchkbb.f for Checks the banded SVD routine DGBBRD prec double cchkbb.f for Checks the banded SVD routine CGBBRD prec complex zchkbb.f for Checks the banded SVD routine ZGBBRD prec doublecomplex schkbd.f for Checks the SVD routines (SGEBRD, SORGBR, SBDSQR) prec single dchkbd.f for Checks the SVD routines (DGEBRD, DORGBR, DBDSQR) prec double cchkbd.f for Checks the SVD routines (CGEBRD, CUNGBR, CBDSQR) prec complex, doublecomplex zchkbd.f for Checks the SVD routines (ZGEBRD, ZUNGBR, ZBDSQR) prec doublecomplex sdrvbd.f for Checks the SVD driver SGESVD prec single ddrvbd.f for Checks the SVD driver DGESVD prec double cdrvbd.f for Checks the SVD driver CGESVD prec complex zchkgb.f zchkgk.f zchkgl.f zdrvbd.f for Checks the SVD driver ZGESVD prec doublecomplex serrbd.f for Tests the error exits for SGEBRD,SORGBR,SORMBR,SBDSQR prec single derrbd.f for Tests the error exits for DGEBRD,DORGBR,DORMBR,DBDSQR prec double cerrbd.f for Tests the error exits for CGEBRD,CUNGBR,CUNMBR,CBDSQR prec complex zerrbd.f for Tests the error exits for ZGEBRD,ZUNGBR,ZUNMBR,ZBDSQR prec doublecomplex # === schkbk.f for Tests SGEBAK prec single dchkbk.f for Tests DGEBAK prec double cchkbk.f for Tests CGEBAK prec complex zchkbk.f for Tests ZGEBAK prec doublecomplex # === schkbl.f for Tests SGEBAL prec single dchkbl.f for Tests DGEBAL prec double cchkbl.f for Tests CGEBAL prec complex zchkbl.f for Tests ZGEBAL prec doublecomplex # === schkec.f for Tests the eigen- condition estimation routines STRSYL, STREXC, STRSNA, STRSEN prec single dchkec.f for Tests the eigen- condition estimation routines DTRSYL, DTREXC, DTRSNA, DTRSEN prec double cchkec.f for Tests the eigen- condition estimation routines CTRSYL, CTREXC, CTRSNA, CTRSEN prec complex zchkec.f for Tests the eigen- condition estimation routines ZTRSYL, ZTREXC, ZTRSNA, ZTRSEN prec doublecomplex serrec.f for Tests the error exits for the eigen- condition estimation routines (STRSYL, STREXC, STRSNA, STRSEN) prec single derrec.f for Tests the error exits for the eigen- condition estimation routines (DTRSYL, DTREXC, DTRSNA, DTRSEN) prec double cerrec.f for Tests the error exits for the eigen- condition estimation routines (CTRSYL, CTREXC, CTRSNA, CTRSEN) prec complex zerrec.f for Tests the error exits for the eigen- condition estimation routines (ZTRSYL, ZTREXC, ZTRSNA, ZTRSEN) prec doublecomplex # === schkgg.f for Tests SGGHRD, SHGEQZ, and STGEVC prec single dchkgg.f for Tests DGGHRD, DHGEQZ, and DTGEVC prec double cchkgg.f for Tests CGGHRD, CHGEQZ, and CTGEVC prec complex zchkgg.f for Tests ZGGHRD, ZHGEQZ, and ZTGEVC prec doublecomplex sdrvgg.f for Tests SGEGS and SGEGV prec single ddrvgg.f for Tests DGEGS and DGEGV prec double cdrvgg.f for Tests CGEGS and CGEGV prec complex zdrvgg.f for Tests ZGEGS and ZGEGV prec doublecomplex serrgg.f for Tests the error exits for SGGHRD, SHGEQZ, and STGEVC prec single derrgg.f for Tests the error exits for DGGHRD, DHGEQZ, and DTGEVC prec double cerrgg.f for Tests the error exits for CGGHRD, CHGEQZ, and CTGEVC prec complex zerrgg.f for Tests the error exits for ZGGHRD, ZHGEQZ, and ZTGEVC prec doublecomplex # === schkbk.f for Testing SGGBAK prec single dchkbk.f for Testing DGGBAK prec double cchkbk.f for Testing CGGBAK prec complex zchkbk.f for Testing ZGGBAK prec doublecomplex # === schkbl.f for Testing SGGBAL prec single dchkbl.f for Testing DGGBAL prec double cchkbl.f for Testing CGGBAL prec complex zchkbl.f for Testing ZGGBAL prec doublecomplex # === schkhs.f for Checks the nonsymmetric eigenvalue problem routines (SGEHRD, SORGHR, SORMHR, SHSEQR, STREVC, and SHSEIN) prec single dchkhs.f for Checks the nonsymmetric eigenvalue problem routines (DGEHRD, DORGHR, DORMHR, DHSEQR, DTREVC, and DHSEIN) prec double cchkhs.f for Checks the nonsymmetric eigenvalue problem routines (CGEHRD, CUNGHR, CUNMHR, CHSEQR, CTREVC, and CHSEIN) prec complex zchkhs.f for Checks the nonsymmetric eigenvalue problem routines (ZGEHRD, ZUNGHR, ZUNMHR, ZHSEQR, ZTREVC, and ZHSEIN) prec doublecomplex serrhs.f for Tests the error exits for SGEHRD, SORGHR, SORMHR, SHSEQR, SHSEIN, and STREVC prec single derrhs.f for Tests the error exits for DGEHRD, DORGHR, DORMHR, DHSEQR, DHSEIN, and DTREVC prec double cerrhs.f for Tests the error exits for CGEHRD, CUNGHR, CUNMHR, CHSEQR, CHSEIN, and CTREVC prec complex zerrhs.f for Tests the error exits for ZGEHRD, ZUNGHR, ZUNMHR, ZHSEQR, ZHSEIN, and ZTREVC prec doublecomplex sdrves.f for Checks the nonsymmetric eigenvalue (Schur form) problem driver SGEES prec single ddrves.f for Checks the nonsymmetric eigenvalue (Schur form) problem driver DGEES prec double cdrves.f for Checks the nonsymmetric eigenvalue (Schur form) problem driver CGEES prec complex zdrves.f for Checks the nonsymmetric eigenvalue (Schur form) problem driver ZGEES prec doublecomplex sdrvsx.f for Checks the nonsymmetric eigenvalue (Schur form) problem expert driver SGEESX prec single ddrvsx.f for Checks the nonsymmetric eigenvalue (Schur form) problem expert driver DGEESX prec double cdrvsx.f for Checks the nonsymmetric eigenvalue (Schur form) problem expert driver CGEESX prec complex zdrvsx.f for Checks the nonsymmetric eigenvalue (Schur form) problem expert driver ZGEESX prec doublecomplex sdrvev.f for Checks the nonsymmetric eigenvalue problem driver SGEEV prec single ddrvev.f for Checks the nonsymmetric eigenvalue problem driver DGEEV prec double cdrvev.f for Checks the nonsymmetric eigenvalue problem driver CGEEV prec complex zdrvev.f for Checks the nonsymmetric eigenvalue problem driver ZGEEV prec doublecomplex sdrvvx.f for Checks the nonsymmetric eigenvalue problem expert driver SGEEVX prec single ddrvvx.f for Checks the nonsymmetric eigenvalue problem expert driver DGEEVX prec double cdrvvx.f for Checks the nonsymmetric eigenvalue problem expert driver CGEEVX prec complex zdrvvx.f for Checks the nonsymmetric eigenvalue problem expert driver ZGEEVX prec doublecomplex serred.f for Tests the error exits for the eigenvalue driver routines (SGEEV,SGEES,SGEEVX,SGEESX,SGESVD) prec single derred.f for Tests the error exits for the eigenvalue driver routines (DGEEV,DGEES,DGEEVX,DGEESX,DGESVD) prec double cerred.f for Tests the error exits for the eigenvalue driver routines (CGEEV,CGEES,CGEEVX,CGEESX,CGESVD) prec complex zerred.f for Tests the error exits for the eigenvalue driver routines (ZGEEV,ZGEES,ZGEEVX,ZGEESX,ZGESVD) prec doublecomplex # === schksb.f for Tests SSBTRD (the reduction of a symmetric band matrix to tridiagonal form, used with the symmetric eigenvalue problem prec single dchksb.f for Tests DSBTRD (the reduction of a symmetric band matrix to tridiagonal form, used with the symmetric eigenvalue problem prec double cchkhb.f for Tests CHBTRD (the reduction of a Hermitian band matrix to tridiagonal form), used with the Hermitian eigenvalue problem prec complex zchkhb.f for Tests ZHBTRD (the reduction of a Hermitian band matrix to tridiagonal form), used with the Hermitian eigenvalue problem prec doublecomplex # === schkst.f for Checks the symmetric eigenvalue problem routines (SSYTRD, R,SSTEBZ,SSTEIN) prec single dchkst.f for Checks the symmetric eigenvalue problem routines (DSYTRD, R,DSTEBZ,DSTEIN) prec double cchkst.f for Checks the (complex) hermitian eigenvalue problem routines EQR,SSTEBZ,CSTEIN) prec complex zchkst.f for Checks the (complex) hermitian eigenvalue problem routines EQR,DSTEBZ,ZSTEIN) prec doublecomplex sdrvst.f for Checks the symmetric eigenvalue problem drivers , (SSTEV,SSTEVX,SSYEV,SSYEVX,SSPEV,SSPEVX,SSB EV,SSBEVX) prec single ddrvst.f for Checks the symmetric eigenvalue problem drivers , (DSTEV,DSTEVX,DSYEV,DSYEVX,DSPEV,DSPEVX,DSB EV,DSBEVX) prec double cdrvst.f for Checks the Hermitian eigenvalue problem drivers (CHEEV,CHEEVX,CHPEV,CHPEVX,CHBEV,CHBEVX) prec complex zdrvst.f for Checks the Hermitian eigenvalue problem drivers (ZHEEV,ZHEEVX,ZHPEV,ZHPEVX,ZHBEV,ZHBEVX) prec doublecomplex serrst.f for Tests the error exits for SSYTRD,SORGTR,SORMTR,SSPTRD, ,SPTEQR,SSBTRD prec single derrst.f for Tests the error exits for DSYTRD,DORGTR,DORMTR,DSPTRD, ,DPTEQR,DSBTRD prec double cerrst.f for Tests the error exits for CHETRD, CUNGTR, CUNMTR, CHPTRD, CUPGTR, CUPMTR, CSTEQR, CSTEIN, CPTEQR, and CHBTRD prec complex zerrst.f for Tests the error exits for ZHETRD, ZUNGTR, ZUNMTR, ZHPTRD, ZUPGTR, ZUPMTR, ZSTEQR, ZSTEIN, ZPTEQR, and ZHBTRD prec doublecomplex sdrvsg.f for Checks the symmetric generalized eigenvalue problem routines (SSYGST, SSYTRD, SORGTR, SSTEQR, SSTERF) prec single ddrvsg.f for Checks the symmetric generalized eigenvalue problem routines (DSYGST, DSYTRD, DORGTR, DSTEQR, DSTERF) prec double cdrvsg.f for Checks the complex hermitian generalized eigenvalue problem routines (CHEGST, CHETRD, CUNGTR, CSTEQR, SSTERF, CSTEIN) prec complex, doublecomplex zdrvsg.f for Checks the complex hermitian generalized eigenvalue problem routines (ZHEGST, ZHETRD, ZUNGTR, ZSTEQR, SSTERF, ZSTEIN) prec doublecomplex # === sckglm.f for Tests SGGGLM prec single dckglm.f for Tests DGGGLM prec double cckglm.f for Tests CGGGLM prec complex zckglm.f for Tests ZGGGLM prec doublecomplex # === sckgqr.f for Tests SGGQRF and SGGRQF prec single dckgqr.f for Tests DGGQRF and DGGRQF prec double cckgqr.f for Tests CGGQRF and CGGRQF prec complex zckgqr.f for Tests ZGGQRF and ZGGRQF prec doublecomplex # === sckgsv.f for Tests SGGSVD prec single dckgsv.f for Tests DGGSVD prec double cckgsv.f for Tests CGGSVD prec complex zckgsv.f for Tests ZGGSVD prec doublecomplex # === scklse.f for Tests SGGLSE prec single dcklse.f for Tests DGGLSE prec double ccklse.f for Tests CGGLSE prec complex zcklse.f for Tests ZGGLSE prec doublecomplex zget02.f zget10.f zget22.f zget23.f zget24.f zget35.f zget36.f zget37.f zget38.f zget51.f zget52.f zglmts.f zgqrts.f zgrqts.f zgsvts.f zhbt21.f zhet21.f zhet22.f zhpt21.f zhst01.f zlarfy.f zlarhs.f zlatm4.f zlsets.f zsbmv.f zsgt01.f zslect.f zstt21.f zunt01.f zunt03.f ----------------------------------------------------------- for Subdirectory of Linear Equation Testing path: /netlib/lapack/testing/lin/ ----------------------------------------------------------- ####################################### # Index for lapack/testing/lin # ####################################### aladhd.f alaerh.f alaesm.f alahd.f alareq.f alasum.f alasvm.f cgbt01.f cgbt02.f cgbt05.f cget01.f cget02.f cget03.f cget04.f cget07.f cgtt01.f cgtt02.f cgtt05.f chet01.f chkxer.f chpt01.f claipd.f claptm.f clarhs.f clatb4.f clatsp.f clatsy.f clattb.f clattp.f clattr.f clavhe.f clavhp.f clavsp.f clavsy.f clqt01.f clqt02.f clqt03.f cpbt01.f cpbt02.f cpbt05.f cpot01.f cpot02.f cpot03.f cpot05.f cppt01.f cppt02.f cppt03.f cppt05.f cptt01.f cptt02.f cptt05.f cqlt01.f cqlt02.f cqlt03.f cqpt01.f cqrt01.f cqrt02.f cqrt03.f cqrt11.f cqrt12.f cqrt13.f cqrt14.f cqrt15.f cqrt16.f cqrt17.f crqt01.f crqt02.f crqt03.f csbmv.f cspt01.f cspt02.f cspt03.f csyt01.f csyt02.f csyt03.f ctbt02.f ctbt03.f ctbt05.f ctbt06.f ctpt01.f ctpt02.f ctpt03.f ctpt05.f ctpt06.f ctrt01.f ctrt02.f ctrt03.f ctrt05.f ctrt06.f ctzt01.f ctzt02.f dgbt01.f dgbt02.f dgbt05.f dget01.f dget02.f dget03.f dget04.f dget06.f dget07.f dgtt01.f dgtt02.f dgtt05.f dlaord.f dlaptm.f dlarhs.f dlatb4.f dlattb.f dlattp.f dlattr.f dlavsp.f dlavsy.f dlqt01.f dlqt02.f dlqt03.f dpbt01.f dpbt02.f dpbt05.f dpot01.f dpot02.f dpot03.f dpot05.f dppt01.f dppt02.f dppt03.f dppt05.f dptt01.f dptt02.f dptt05.f dqlt01.f dqlt02.f dqlt03.f dqpt01.f dqrt01.f dqrt02.f dqrt03.f dqrt11.f dqrt12.f dqrt13.f dqrt14.f dqrt15.f dqrt16.f dqrt17.f drqt01.f drqt02.f drqt03.f dspt01.f dsyt01.f dtbt02.f dtbt03.f dtbt05.f dtbt06.f dtpt01.f dtpt02.f dtpt03.f dtpt05.f dtpt06.f dtrt01.f dtrt02.f dtrt03.f dtrt05.f dtrt06.f dtzt01.f dtzt02.f sgbt01.f sgbt02.f sgbt05.f sget01.f sget02.f sget03.f sget04.f sget06.f sget07.f sgtt01.f sgtt02.f sgtt05.f slaord.f slaptm.f slarhs.f slatb4.f slattb.f slattp.f slattr.f slavsp.f slavsy.f slqt01.f slqt02.f slqt03.f spbt01.f spbt02.f spbt05.f spot01.f spot02.f spot03.f spot05.f sppt01.f sppt02.f sppt03.f sppt05.f sptt01.f sptt02.f sptt05.f sqlt01.f sqlt02.f sqlt03.f sqpt01.f sqrt01.f sqrt02.f sqrt03.f sqrt11.f sqrt12.f sqrt13.f sqrt14.f sqrt15.f sqrt16.f sqrt17.f srqt01.f srqt02.f srqt03.f sspt01.f ssyt01.f stbt02.f stbt03.f stbt05.f stbt06.f stpt01.f stpt02.f stpt03.f stpt05.f stpt06.f strt01.f strt02.f strt03.f strt05.f strt06.f stzt01.f stzt02.f xerbla.f for Special version of this routine used in testing ilaenv.f for Special version used in conjunction with XLAENV xlaenv.f for Resets ILAENV values for testing purposes # ========================================== # Available Linear Equation Testing Routines # ========================================== schkaa.f for Test program driver for linear equation testing prec single dchkaa.f for Test program driver for linear equation testing prec double cchkaa.f for Test program driver for linear equation testing prec complex zchkaa.f for Test program driver for linear equation testing prec doublecomplex # === schkeq.f for Tests equilibration routines (SGEEQU, SGBEQU, SPOEQU, SPPEQU and SPBEQU) prec single dchkeq.f for Tests equilibration routines (DGEEQU, DGBEQU, DPOEQU, # DPPEQU and DPBEQU) prec double cchkeq.f for Tests equilibration routines (CGEEQU, CGBEQU) prec complex zchkeq.f for Tests equilibration routines (ZGEEQU, ZGBEQU) prec doublecomplex # === schkgb.f for Tests SGBTRF, SGBTRS, SGBRFS, and SGBCON prec single dchkgb.f for Tests DGBTRF, DGBTRS, DGBRFS, and DGBCON prec double cchkgb.f for Tests CGBTRF, CGBTRS, CGBRFS, and CGBCON prec complex zchkgb.f for Tests ZGBTRF, ZGBTRS, ZGBRFS, and ZGBCON prec doublecomplex sdrvgb.f for Tests the driver routines SGBSV and SGBSVX prec single ddrvgb.f for Tests the driver routines DGBSV and DGBSVX prec double cdrvgb.f for Tests the driver routines CGBSV and CGBSVX prec complex zdrvgb.f for Tests the driver routines ZGBSV and ZGBSVX prec doublecomplex schkge.f for Tests SGETRF, SGETRI, SGETRS, SGERFS, and SGECON prec single dchkge.f for Tests DGETRF, DGETRI, DGETRS, DGERFS, and DGECON prec double cchkge.f for Tests CGETRF, CGETRI, CGETRS, CGERFS, and CGECON prec complex zchkge.f for Tests ZGETRF, ZGETRI, ZGETRS, ZGERFS, and ZGECON prec doublecomplex sdrvge.f for Tests the driver routines SGESV and SGESVX prec single ddrvge.f for Tests the driver routines DGESV and DGESVX prec double cdrvge.f for Tests the driver routines CGESV and CGESVX prec complex zdrvge.f for Tests the driver routines ZGESV and ZGESVX prec doublecomplex serrge.f for Tests the error exits for the SGE- and SGB- routines prec single derrge.f for Tests the error exits for the DGE- and DGB- routines prec double cerrge.f for Tests the error exits for the CGE- and CGB- routines prec complex zerrge.f for Tests the error exits for the ZGE- and ZGB- routines prec doublecomplex # === schkgt.f for Tests SGTTRF, SGTTRS, SGTRFS, and SGTCON prec single dchkgt.f for Tests DGTTRF, DGTTRS, DGTRFS, and DGTCON prec double cchkgt.f for Tests CGTTRF, CGTTRS, CGTRFS, and CGTCON prec complex zchkgt.f for Tests ZGTTRF, ZGTTRS, ZGTRFS, and ZGTCON prec doublecomplex sdrvgt.f for Tests SGTSV and SGTSVX prec single ddrvgt.f for Tests DGTSV and DGTSVX prec double cdrvgt.f for Tests CGTSV and CGTSVX prec complex zdrvgt.f for Tests ZGTSV and ZGTSVX prec doublecomplex serrgt.f for Tests the error exits for the tridiagonal routines (SGT- and SPT-) prec single derrgt.f for Tests the error exits for the tridiagonal routines (DGT- and DPT-) prec double cerrgt.f for Tests the error exits for the tridiagonal routines (CGT- and CPT-) prec complex zerrgt.f for Tests the error exits for the tridiagonal routines (ZGT- and ZPT-) prec doublecomplex # === schklq.f for Tests SGELQF, SORGLQ and SORMLQ prec single dchklq.f for Tests DGELQF, DORGLQ and DORMLQ prec double cchklq.f for Tests CGELQF, CUNGLQ and CUNMLQ prec complex zchklq.f for Tests ZGELQF, ZUNGLQ and ZUNMLQ prec doublecomplex serrlq.f for Tests the error exits for the LQ routines prec single derrlq.f for Tests the error exits for the LQ routines prec double cerrlq.f for Tests the error exits for the LQ routines prec complex zerrlq.f for Tests the error exits for the LQ routines prec doublecomplex # === schkpb.f for Tests SPBTRF, SPBTRS, SPBRFS, and SPBCON prec single dchkpb.f for Tests DPBTRF, DPBTRS, DPBRFS, and DPBCON prec double cchkpb.f for Tests CPBTRF, CPBTRS, CPBRFS, and CPBCON prec complex zchkpb.f for Tests ZPBTRF, ZPBTRS, ZPBRFS, and ZPBCON prec doublecomplex sdrvpb.f for Tests the driver routines SPBSV and SPBSVX prec single ddrvpb.f for Tests the driver routines DPBSV and DPBSVX prec double cdrvpb.f for Tests the driver routines CPBSV and CPBSVX prec complex zdrvpb.f for Tests the driver routines ZPBSV and ZPBSVX prec doublecomplex schkpo.f for Tests SPOTRF, SPOTRI, SPOTRS, SPORFS, and SPOCON prec single dchkpo.f for Tests DPOTRF, DPOTRI, DPOTRS, DPORFS, and DPOCON prec double cchkpo.f for Tests CPOTRF, CPOTRI, CPOTRS, CPORFS, and CPOCON prec complex zchkpo.f for Tests ZPOTRF, ZPOTRI, ZPOTRS, ZPORFS, and ZPOCON prec doublecomplex sdrvpo.f for Tests the driver routines SPOSV and SPOSVX prec single ddrvpo.f for Tests the driver routines DPOSV and DPOSVX prec double cdrvpo.f for Tests the driver routines CPOSV and CPOSVX prec complex zdrvpo.f for Tests the driver routines ZPOSV and ZPOSVX prec doublecomplex schkpp.f for Tests SPPTRF, SPPTRI, SPPTRS, SPPRFS, and SPPCON prec single dchkpp.f for Tests DPPTRF, DPPTRI, DPPTRS, DPPRFS, and DPPCON prec double cchkpp.f for Tests CPPTRF, CPPTRI, CPPTRS, CPPRFS, and CPPCON prec complex zchkpp.f for Tests ZPPTRF, ZPPTRI, ZPPTRS, ZPPRFS, and ZPPCON prec doublecomplex sdrvpp.f for Tests the driver routines SPPSV and SPPSVX prec single ddrvpp.f for Tests the driver routines DPPSV and DPPSVX prec double cdrvpp.f for Tests the driver routines CPPSV and CPPSVX prec complex zdrvpp.f for Tests the driver routines ZPPSV and ZPPSVX prec doublecomplex serrpo.f for Tests the error exits for the (SPB-, SPO-, SPP-) routines prec single derrpo.f for Tests the error exits for the (DPB-, DPO-, DPP-) routines prec double cerrpo.f for Tests the error exits for the (CPB-, CPO-, CPP-) routines prec complex zerrpo.f for Tests the error exits for the (ZPB-, ZPO-, ZPP-) routines prec doublecomplex # === schkpt.f for Tests SPTTRF, SPTTRS, SPTRFS, and SPTCON prec single dchkpt.f for Tests DPTTRF, DPTTRS, DPTRFS, and DPTCON prec double cchkpt.f for Tests CPTTRF, CPTTRS, CPTRFS, and CPTCON prec complex zchkpt.f for Tests ZPTTRF, ZPTTRS, ZPTRFS, and ZPTCON prec doublecomplex sdrvpt.f for Tests SPTSV and SPTSVX prec single ddrvpt.f for Tests DPTSV and DPTSVX prec double cdrvpt.f for Tests CPTSV and CPTSVX prec complex zdrvpt.f for Tests ZPTSV and ZPTSVX prec doublecomplex # === schkql.f for Tests SGEQLF, SORGQL and SORMQL prec single dchkql.f for Tests DGEQLF, DORGQL and DORMQL prec double cchkql.f for Tests CGEQLF, CUNGQL and CUNMQL prec complex zchkql.f for Tests ZGEQLF, ZUNGQL and ZUNMQL prec doublecomplex serrql.f for Tests the error exits for the QL routines prec single derrql.f for Tests the error exits for the QL routines prec double cerrql.f for Tests the error exits for the QL routines prec complex zerrql.f for Tests the error exits for the QL routines prec doublecomplex # === schkqp.f for Tests SGEQPF prec single dchkqp.f for Tests DGEQPF prec double cchkqp.f for Tests CGEQPF prec complex zchkqp.f for Tests ZGEQPF prec doublecomplex serrqp.f for Tests the error exits for SGEQPF prec single derrqp.f for Tests the error exits for DGEQPF prec double cerrqp.f for Tests the error exits for CGEQPF prec complex zerrqp.f for Tests the error exits for ZGEQPF prec doublecomplex # === schkqr.f for Tests SGEQRF, SORGQR and SORMQR prec single dchkqr.f for Tests DGEQRF, DORGQR and DORMQR prec double cchkqr.f for Tests CGEQRF, CUNGQR and CUNMQR prec complex zchkqr.f for Tests ZGEQRF, ZUNGQR and ZUNMQR prec doublecomplex serrqr.f for Tests the error exits for the QR routines prec single derrqr.f for Tests the error exits for the QR routines prec double cerrqr.f for Tests the error exits for the QR routines prec complex zerrqr.f for Tests the error exits for the QR routines prec doublecomplex # === schkrq.f for Tests SGERQF, SORGRQ and SORMRQ prec single dchkrq.f for Tests DGERQF, DORGRQ and DORMRQ prec double cchkrq.f for Tests CGERQF, CUNGRQ and CUNMRQ prec complex zchkrq.f for Tests ZGERQF, ZUNGRQ and ZUNMRQ prec doublecomplex serrrq.f for Tests the error exits for the RQ routines prec single derrrq.f for Tests the error exits for the RQ routines prec double cerrrq.f for Tests the error exits for the RQ routines prec complex zerrrq.f for Tests the error exits for the RQ routines prec doublecomplex # === schksp.f for Tests SSPTRF, SSPTRI, SSPTRS, SSPRFS, and SSPCON prec single dchksp.f for Tests DSPTRF, DSPTRI, DSPTRS, DSPRFS, and DSPCON prec double cchksp.f for Tests CSPTRF, CSPTRI, CSPTRS, CSPRFS, and CSPCON prec complex zchksp.f for Tests ZSPTRF, ZSPTRI, ZSPTRS, ZSPRFS, and ZSPCON prec doublecomplex cchkhp.f for Tests CHPTRF, CHPTRI, CHPTRS, CHPRFS, and CHPCON prec complex zchkhp.f for Tests ZHPTRF, ZHPTRI, ZHPTRS, ZHPRFS, and ZHPCON prec doublecomplex sdrvsp.f for Tests the driver routines SSPSV and SSPSVX prec single ddrvsp.f for Tests the driver routines DSPSV and DSPSVX prec double cdrvsp.f for Tests the driver routines CSPSV and CSPSVX prec complex zdrvsp.f for Tests the driver routines ZSPSV and ZSPSVX prec doublecomplex cdrvhp.f for Tests the driver routines CHPSV and CHPSVX prec complex zdrvhp.f for Tests the driver routines ZHPSV and ZHPSVX prec doublecomplex schksy.f for Tests SSYTRF, SSYTRI, SSYTRS, SSYRFS, and SSYCON prec single dchksy.f for Tests DSYTRF, DSYTRI, DSYTRS, DSYRFS, and DSYCON prec double cchksy.f for Tests CSYTRF, CSYTRI, CSYTRS, CSYRFS, and CSYCON prec complex zchksy.f for Tests ZSYTRF, ZSYTRI, ZSYTRS, ZSYRFS, and ZSYCON prec doublecomplex cchkhe.f for Tests CHETRF, CHETRI, CHETRS, CHERFS, and CHECON prec complex zchkhe.f for Tests ZHETRF, ZHETRI, ZHETRS, ZHERFS, and ZHECON prec doublecomplex sdrvsy.f for Tests the driver routines SSYSV and SSYSVX prec single ddrvsy.f for Tests the driver routines DSYSV and DSYSVX prec double cdrvsy.f for Tests the driver routines SSYSV and SSYSVX prec complex zdrvsy.f for Tests the driver routines ZSYSV and ZSYSVX prec doublecomplex cdrvhe.f for Tests the driver routines CHESV and CHESVX prec complex zdrvhe.f for Tests the driver routines ZHESV and ZHESVX prec doublecomplex serrsy.f for Tests the error exits for the (SSP- and SSY-) routines prec single derrsy.f for Tests the error exits for the (DSP- and DSY-) routines prec double cerrsy.f for Tests the error exits for the (DSP- and DSY-) routines prec complex zerrsy.f for Tests the error exits for the (DSP- and DSY-) routines prec doublecomplex cerrhe.f for Tests the error exits for the (CHE- and CHP-) routines prec complex zerrhe.f for Tests the error exits for the (ZHE- and ZHP-) routines prec doublecomplex # === schktb.f for Tests STBTRI, STBTRS, STBRFS, and STBCON, and SLATBS prec single dchktb.f for Tests DTBTRI, DTBTRS, DTBRFS, and DTBCON, and DLATBS prec double cchktb.f for Tests CTBTRI, CTBTRS, CTBRFS, and CTBCON, and CLATBS prec complex zchktb.f for Tests ZTBTRI, ZTBTRS, ZTBRFS, and ZTBCON, and ZLATBS prec doublecomplex schktp.f for Tests STPTRI, STPTRS, STPRFS, and STPCON, and SLATPS prec single dchktp.f for Tests DTPTRI, DTPTRS, DTPRFS, and DTPCON, and DLATPS prec double cchktp.f for Tests CTPTRI, CTPTRS, CTPRFS, and CTPCON, and CLATPS prec complex zchktp.f for Tests ZTPTRI, ZTPTRS, ZTPRFS, and ZTPCON, and ZLATPS prec doublecomplex schktr.f for Tests STRTRI, STRTRS, STRRFS, and STRCON, and SLATRS prec single dchktr.f for Tests DTRTRI, DTRTRS, DTRRFS, and DTRCON, and DLATRS prec double cchktr.f for Tests CTRTRI, CTRTRS, CTRRFS, and CTRCON, and CLATRS prec complex zchktr.f for Tests ZTRTRI, ZTRTRS, ZTRRFS, and ZTRCON, and ZLATRS prec doublecomplex serrtr.f for Tests the error exits for the -TR routines prec single derrtr.f for Tests the error exits for the -TR routines prec double cerrtr.f for Tests the error exits for the -TR routines prec complex zerrtr.f for Tests the error exits for the -TR routines prec doublecomplex # === schktz.f for Tests STZRQF prec single dchktz.f for Tests DTZRQF prec double cchktz.f for Tests CTZRQF prec complex zchktz.f for Tests ZTZRQF prec doublecomplex serrtz.f for Tests the error exits for STZRQF prec single derrtz.f for Tests the error exits for DTZRQF prec double cerrtz.f for Tests the error exits for CTZRQF prec complex zerrtz.f for Tests the error exits for ZTZRQF prec doublecomplex # === sdrvls.f for Tests the least squares driver routines SGELS, SGELSX, and SGELSS prec single ddrvls.f for Tests the least squares driver routines DGELS, DGELSX, and DGELSS prec double cdrvls.f for Tests the least squares driver routines CGELS, CGELSX, and CGELSS prec complex zdrvls.f for Tests the least squares driver routines ZGELS, ZGELSX, and ZGELSS prec doublecomplex serrls.f for Tests the error exits for the (SGELS, SGELSS, SGELSX) routines prec single derrls.f for Tests the error exits for the (DGELS, DGELSS, DGELSX) routines prec double cerrls.f for Tests the error exits for the (CGELS, CGELSS, CGELSX) routines prec complex zerrls.f for Tests the error exits for the (ZGELS, ZGELSS, ZGELSX) routines prec doublecomplex # === serrvx.f for Tests the error exits for the (-SV and -SVX) routines prec single derrvx.f for Tests the error exits for the (-SV and -SVX) routines prec double cerrvx.f for Tests the error exits for the (-SV and -SVX) routines prec complex zerrvx.f for Tests the error exits for the (-SV and -SVX) routines prec doublecomplex # ========================================== # Other Available Testing Routines # ========================================== sgelqs.f for Compute a minimum norm solution using the LQ factorization computed by SGELQF prec single dgelqs.f for Compute a minimum norm solution using the LQ factorization computed by DGELQF prec double cgelqs.f for Compute a minimum norm solution using the LQ factorization computed by CGELQF prec complex zgbt01.f zgbt02.f zgbt05.f zgelqs.f for Compute a minimum norm solztion using the LQ factorization computed by ZGELQF prec doublecomplex sgeqls.f for Solve the least squares problem using the QL factorization computed by SGEQLF prec single dgeqls.f for Solve the least squares problem using the QL factorization computed by DGEQLF prec double cgeqls.f for Solve the least squares problem using the QL factorization computed by CGEQLF prec complex zgeqls.f for Solve the least squares problem using the QL factorization computed by ZGEQLF prec doublecomplex sgeqrs.f for Solve the least squares problem using the QR factorization computed by SGEQRF prec single dgeqrs.f for Solve the least squares problem using the QR factorization computed by DGEQRF prec double cgeqrs.f for Solve the least squares problem using the QR # factorization computed by CGEQRF prec complex zgeqrs.f for Solve the least squares problem using the QR factorization computed by ZGEQRF prec doublecomplex sgerqs.f for Compute a minimum-norm solution using the RQ # factorization computed by SGERQF prec single dgerqs.f for Compute a minimum-norm solution using the RQ factorization computed by DGERQF prec double cgerqs.f for Compute a minimum-norm solution using the RQ # factorization computed by CGERQF prec complex zgerqs.f for Compute a minimum-norm solution using the RQ factorization computed by ZGERQF prec doublecomplex zget01.f zget02.f zget03.f zget04.f zget07.f zgtt01.f zgtt02.f zgtt05.f zhet01.f zhpt01.f zlaipd.f zlaptm.f zlarhs.f zlatb4.f zlatsp.f zlatsy.f zlattb.f zlattp.f zlattr.f zlavhe.f zlavhp.f zlavsp.f zlavsy.f zlqt01.f zlqt02.f zlqt03.f zpbt01.f zpbt02.f zpbt05.f zpot01.f zpot02.f zpot03.f zpot05.f zppt01.f zppt02.f zppt03.f zppt05.f zptt01.f zptt02.f zptt05.f zqlt01.f zqlt02.f zqlt03.f zqpt01.f zqrt01.f zqrt02.f zqrt03.f zqrt11.f zqrt12.f zqrt13.f zqrt14.f zqrt15.f zqrt16.f zqrt17.f zrqt01.f zrqt02.f zrqt03.f zsbmv.f zspt01.f zspt02.f zspt03.f zsyt01.f zsyt02.f zsyt03.f ztbt02.f ztbt03.f ztbt05.f ztbt06.f ztpt01.f ztpt02.f ztpt03.f ztpt05.f ztpt06.f ztrt01.f ztrt02.f ztrt03.f ztrt05.f ztrt06.f ztzt01.f ztzt02.f ----------------------------------------------------------- for Subdirectory of Matrix Generation Routines (used path: /netlib/lapack/testing/matgen/ ----------------------------------------------------------- # #========= index for lapack/testing/matgen ========= # slagge.f for Generates a real general matrix prec single dlagge.f for Generates a real general matrix prec double clagge.f for Generates a complex general matrix prec complex zlagge.f for Generates a complex general matrix prec doublecomplex claghe.f for Generates a complex Hermitian matrix prec complex zlaghe.f for Generates a complex Hermitian matrix prec doublecomplex slagsy.f for Generates a real symmetric matrix prec single dlagsy.f for Generates a real symmetric matrix prec double clagsy.f for Generates a complex symmetric matrix prec complex zlagsy.f for Generates a complex symmetric matrix prec doublecomplex slaran.f for Returns a random real number from a uniform (0,1) distribution prec single dlaran.f for Returns a random real number from a uniform (0,1) distribution prec double slarge.f for Pre- and post-multiples a real general matrix with a random orthogonal matrix prec single dlarge.f for Pre- and post-multiples a real general matrix with a random orthogonal matrix prec double clarge.f for Pre- and post-multiples a complex general matrix with a random unitary matrix prec complex zlarge.f for Pre- and post-multiples a complex general matrix with a random unitary matrix prec doublecomplex slarnd.f for Returns a random real number from a uniform or normal distribution prec single dlarnd.f for Returns a random real number from a uniform or normal distribution prec double clarnd.f for Returns a random complex number from a uniform or normal distribution prec complex zlarnd.f for Returns a random complex number from a uniform or normal distribution prec doublecomplex slaror.f for Pre- or post-multiplies a real general matrix by a random orthogonal matrix prec single dlaror.f for Pre- or post-multiplies a real general matrix by a random orthogonal matrix prec double claror.f for Pre- or post-multiplies a complex general matrix by a random unitary matrix prec complex zlaror.f for Pre- or post-multiplies a complex general matrix by a random unitary matrix prec doublecomplex slarot.f for Applies a (Givens) rotation to two adjacent rows or columns, where one element of the first and/or last column/row may be a separate variable. prec single dlarot.f for Applies a (Givens) rotation to two adjacent rows or columns, where one element of the first and/or last column/row may be a separate variable. prec double clarot.f for Applies a (Givens) rotation to two adjacent rows or columns, where one element of the first and/or last column/row may be a separate variable. prec complex zlarot.f for Applies a (Givens) rotation to two adjacent rows or columns, where one element of the first and/or last column/row may be a separate variable. prec doublecomplex slatm1.f for Called by SLATMR to generate random test matrices prec single dlatm1.f for Called by DLATMR to generate random test matrices prec double clatm1.f for Called by CLATMR to generate random test matrices prec complex zlatm1.f for Called by ZLATMR to generate random test matrices prec doublecomplex slatm2.f for Called by SLATMR to generate random test matrices prec single dlatm2.f for Called by DLATMR to generate random test matrices prec double clatm2.f for Called by CLATMR to generate random test matrices prec complex zlatm2.f for Called by ZLATMR to generate random test matrices prec doublecomplex slatm3.f for Called by SLATMR to generate random test matrices prec single dlatm3.f for Called by DLATMR to generate random test matrices prec double clatm3.f for Called by CLATMR to generate random test matrices prec complex zlatm3.f for Called by ZLATMR to generate random test matrices prec doublecomplex slatme.f for Generates random non-symmetric square matrices with specified eigenvalues prec single dlatme.f for Generates random non-symmetric square matrices with specified eigenvalues prec double clatme.f for Generates random non-symmetric square matrices with specified eigenvalues prec complex zlatme.f for Generates random non-symmetric square matrices with specified eigenvalues prec doublecomplex slatmr.f for Generates random matrices of various types prec single dlatmr.f for Generates random matrices of various types prec double clatmr.f for Generates random matrices of various types prec complex zlatmr.f for Generates random matrices of various types prec doublecomplex slatms.f for generates random matrices with specified singular values (or symmetric with specified eigenvalues) prec single dlatms.f for generates random matrices with specified singular values (or symmetric with specified eigenvalues) prec double clatms.f for generates random matrices with specified singular values (or Hermitian with specified eigenvalues) prec complex zlatms.f for generates random matrices with specified singular values (or Hermitian with specified eigenvalues) prec doublecomplex ----------------------------------------------------------- for Subdirectory containing the timing routines for path: /netlib/lapack/timing/ ----------------------------------------------------------- ####################################### # Index for lapack/timing # ####################################### eig/ for Subdirectory of Eigenproblem Timing lin/ for Subdirectory of Linear Equation Timing large/ for Shar file of LARGE timing data files (xBLASA.in, xBLASB.in, xBLASC.in, xTIME.in, xBAND.in, xTIME2.in, xGEPTIM.in, xNEPTIM.in, xSEPTIM.in, and xSVDTIM.in) prec single, double, complex, doublecomplex # ==== # NOTE: SMALL and LARGE refer to the size of the matrices being # ==== generated. Because of nondifferentiation between upper # and lowercase letters, the LARGE data set can only be obtained # via the large.shar file. # ======================================= # Input Files for BLAS Timing # ======================================= sblasa.in for SMALL Data file for timing BLAS (parameters M, N, and K) with K small prec single dblasa.in for SMALL Data file for timing BLAS (parameters M, N, and K) with K small prec double cblasa.in for SMALL Data file for timing BLAS (parameters M, N, and K) with K small prec complex zblasa.in for SMALL Data file for timing BLAS (parameters M, N, and K) with K small prec doublecomplex sblasb.in for SMALL Data file for timing BLAS (parameters M, N, and K) with M small prec single dblasb.in for SMALL Data file for timing BLAS (parameters M, N, and K) with M small prec double cblasb.in for SMALL Data file for timing BLAS (parameters M, N, and K) with M small prec complex zblasb.in for SMALL Data file for timing BLAS (parameters M, N, and K) with M small prec doublecomplex sblasc.in for SMALL Data file for timing BLAS (parameters M, N, and K) with N small prec single dblasc.in for SMALL Data file for timing BLAS (parameters M, N, and K) with N small prec double cblasc.in for SMALL Data file for timing BLAS (parameters M, N, and K) with N small prec complex zblasc.in for SMALL Data file for timing BLAS (parameters M, N, and K) with N small prec doublecomplex # ======================================= # Input Files for Linear Equation Timing # ======================================= stime.in for SMALL Data file for timing square real linear equations/linear least squares routines prec single dtime.in for SMALL Data file for timing square real linear equations/linear least squares routines prec double ctime.in for SMALL Data file for timing square complex linear equations/linear least squares routines prec complex ztime.in for SMALL Data file for timing square complex linear equations/linear least squares routines prec doublecomplex sband.in for SMALL Data file for timing banded real linear equations/linear least squares routines prec single, double, complex, doublecomplex dband.in for SMALL Data file for timing banded real linear equations/linear least squares routines prec double cband.in for SMALL Data file for timing banded complex linear equations/linear least squares routines prec complex zband.in for SMALL Data file for timing banded complex linear equations/linear least squares routines prec doublecomplex stime2.in for SMALL Data file for timing rectangular real linear equations/least squares routines prec single dtime2.in for SMALL Data file for timing rectangular real linear equations/least squares routines prec double ctime2.in for SMALL Data file for timing rectangular complex linear equations/least squares routines prec complex ztime2.in for SMALL Data file for timing rectangular complex linear equations/least squares routines prec doublecomplex # ======================================= # Input Files for Eigenproblem Timing # ======================================= sgeptim.in for SMALL Data file for timing the real Generalized Nonsymmetric Eigenproblem computational and simple driver routines prec single dgeptim.in for SMALL Data file for timing the real Generalized Nonsymmetric Eigenproblem computational and simple driver routines prec double cgeptim.in for SMALL Data file for timing the complex Generalized Nonsymmetric Eigenproblem computational and simple driver routines prec complex zgeptim.in for SMALL Data file for timing the complex Generalized Nonsymmetric Eigenproblem computational and simple driver routines prec doublecomplex sneptim.in for SMALL Data file for timing the real Nonsymmetric Eigenproblem computational and simple/expert driver routines prec single dneptim.in for SMALL Data file for timing the real Nonsymmetric Eigenproblem computational and simple/expert driver routines prec double cneptim.in for SMALL Data file for timing the complex Nonsymmetric Eigenproblem computational and simple/expert driver routines prec complex zneptim.in for SMALL Data file for timing the complex Nonsymmetric Eigenproblem computational and simple/expert driver routines prec doublecomplex sseptim.in for SMALL Data file for timing the real Symmetric Eigenproblem and Generalized Symmetric Eigenproblem computational and simple/expert driver routines prec single dseptim.in for SMALL Data file for timing the real Symmetric Eigenproblem and Generalized Symmetric Eigenproblem computational and simple/expert driver routines prec double cseptim.in for SMALL Data file for timing the complex Symmetric Eigenproblem and Generalized Symmetric Eigenproblem computational and simple/expert driver routines prec complex zseptim.in for SMALL Data file for timing the complex Symmetric Eigenproblem and Generalized Symmetric Eigenproblem computational and simple/expert driver routines prec doublecomplex ssvdtim.in for SMALL Data file for timing the real Singular Value Decomposition computational and simple/expert driver routines prec single dsvdtim.in for SMALL Data file for timing the real Singular Value Decomposition computational and simple/expert driver routines prec double csvdtim.in for SMALL Data file for timing the complex Singular Value Decomposition computational and simple/expert driver routines prec complex zsvdtim.in for SMALL Data file for timing the complex Singular Value Decomposition computational and simple/expert driver routines prec doublecomplex ----------------------------------------------------------- for Subdirectory of Eigenproblem Timing path: /netlib/lapack/timing/eig/ ----------------------------------------------------------- ####################################### # Index for lapack/timing/eig # ####################################### atimin.f claqzh.f clatm4.f dlaqzh.f dlatm4.f dmflop.f dopla.f dopla2.f dprtbe.f dprtbg.f dprtbr.f dprtbs.f dprtbv.f eigsrc/ for Subdirectory containing instrumented LAPACK routines ilaenv.f for Special version to be used in conjunction with XLAENV slaqzh.f slatm4.f smflop.f sopla.f sopla2.f sprtbe.f sprtbg.f sprtbr.f sprtbs.f sprtbv.f xlaenv.f for Resets ILAENV values for timing purposes # ========================================== # Available Eigenproblem Timing Routines # ========================================== stimee.f for Timing program driver for eigenvalue problem timing prec single dtimee.f for Timing program driver for eigenvalue problem timing prec double ctimee.f for Timing program driver for eigenvalue problem timing prec complex zlaqzh.f zlatm4.f ztimee.f for Timing program driver for eigenvalue problem timing prec doublecomplex # === seispack.f for Instrumented EISPACK routines used for timing purposes prec single deispack.f for Instrumented EISPACK routines used for timing purposes prec double ceispack.f for Instrumented EISPACK routines used for timing purposes prec complex zeispack.f for Instrumented EISPACK routines used for timing purposes prec doublecomplex # === stim21.f for Times the nonsymmetric eigenvalue problem LAPACK routines prec single dtim21.f for Times the nonsymmetric eigenvalue problem LAPACK routines prec double ctim21.f for Times the nonsymmetric eigenvalue problem LAPACK routines prec complex ztim21.f for Times the nonsymmetric eigenvalue problem LAPACK routines prec doublecomplex # === stim22.f for Times the symmetric eigenvalue problem LAPACK routines prec single dtim22.f for Times the symmetric eigenvalue problem LAPACK routines prec double ctim22.f for Times the symmetric eigenvalue problem LAPACK routines prec complex ztim22.f for Times the symmetric eigenvalue problem LAPACK routines prec doublecomplex # === stim26.f for Times the singular value decomposition LAPACK routines prec single dtim26.f for Times the singular value decomposition LAPACK routines prec double ctim26.f for Times the singular value decomposition LAPACK routines prec complex ztim26.f for Times the singular value decomposition LAPACK routines prec doublecomplex # === stim51.f for Times the generalized nonsymmetric eigenvalue problem LAPACK routines prec single dtim51.f for Times the generalized nonsymmetric eigenvalue problem LAPACK routines prec double ctim51.f for Times the generalized nonsymmetric eigenvalue problem LAPACK routines prec complex ztim51.f for Times the generalized nonsymmetric eigenvalue problem LAPACK routines prec doublecomplex ----------------------------------------------------------- for Subdirectory containing instrumented LAPACK path: /netlib/lapack/timing/eig/eigsrc/ ----------------------------------------------------------- ######################################### # Index for lapack/timing/eig/eigsrc # ######################################### # =================================================== # Available Instrumented Eigenproblem LAPACK Routines # =================================================== sbdsqr.f for instrumented SBDSQR to count operations prec single dbdsqr.f for instrumented DBDSQR to count operations prec double cbdsqr.f for instrumented CBDSQR to count operations prec complex zbdsqr.f for instrumented ZBDSQR to count operations prec doublecomplex sgghrd.f for instrumented SGGHRD to count operations prec single dgghrd.f for instrumented DGGHRD to count operations prec double cgghrd.f for instrumented CGGHRD to count operations prec complex zgghrd.f for instrumented ZGGHRD to count operations prec doublecomplex shgeqz.f for instrumented SHGEQZ to count operations prec single dhgeqz.f for instrumented DHGEQZ to count operations prec double chgeqz.f for instrumented CHGEQZ to count operations prec complex zhgeqz.f for instrumented ZHGEQZ to count operations prec doublecomplex shsein.f for instrumented SHSEIN to count operations prec single dhsein.f for instrumented DHSEIN to count operations prec double chsein.f for instrumented CHSEIN to count operations prec complex zhsein.f for instrumented ZHSEIN to count operations prec doublecomplex shseqr.f for instrumented SHSEQR to count operations prec single dhseqr.f for instrumented DHSEQR to count operations prec double chseqr.f for instrumented CHSEQR to count operations prec complex zhseqr.f for instrumented ZHSEQR to count operations prec doublecomplex slaebz.f for instrumented SLAEBZ to count operations prec single dlaebz.f for instrumented DLAEBZ to count operations prec double slaed0.f for instrumented SLAED0 to count operations prec single dlaed0.f for instrumented DLAED0 to count operations prec double claed0.f for instrumented CLAED0 to count operations prec complex zlaed0.f for instrumented ZLAED0 to count operations prec doublecomplex slaed1.f for instrumented SLAED1 to count operations prec single dlaed1.f for instrumented DLAED1 to count operations prec double slaed2.f for instrumented SLAED2 to count operations prec single dlaed2.f for instrumented DLAED2 to count operations prec double slaed3.f for instrumented SLAED3 to count operations prec single dlaed3.f for instrumented DLAED3 to count operations prec double slaed4.f for instrumented SLAED4 to count operations prec single dlaed4.f for instrumented DLAED4 to count operations prec double slaed5.f for instrumented SLAED5 to count operations prec single dlaed5.f for instrumented DLAED5 to count operations prec double slaed6.f for instrumented SLAED6 to count operations prec single dlaed6.f for instrumented DLAED6 to count operations prec double slaed7.f for instrumented SLAED7 to count operations prec single dlaed7.f for instrumented DLAED7 to count operations prec double claed7.f for instrumented CLAED7 to count operations prec complex zlaed7.f for instrumented ZLAED7 to count operations prec doublecomplex slaed8.f for instrumented SLAED8 to count operations prec single dlaed8.f for instrumented DLAED8 to count operations prec double claed8.f for instrumented CLAED8 to count operations prec complex zlaed8.f for instrumented ZLAED8 to count operations prec doublecomplex slaed9.f for instrumented SLAED9 to count operations prec single dlaed9.f for instrumented DLAED9 to count operations prec double slaeda.f for instrumented SLAEDA to count operations prec single dlaeda.f for instrumented DLAEDA to count operations prec double slaein.f for instrumented SLAEIN to count operations prec single dlaein.f for instrumented DLAEIN to count operations prec double claein.f for instrumented CLAEIN to count operations prec complex zlaein.f for instrumented ZLAEIN to count operations prec doublecomplex slahqr.f for instrumented SLAHQR to count operations prec single dlahqr.f for instrumented DLAHQR to count operations prec double clahqr.f for instrumented CLAHQR to count operations prec complex zlahqr.f for instrumented ZLAHQR to count operations prec doublecomplex slasq1.f for instrumented SLASQ1 to count operations prec single dlasq1.f for instrumented DLASQ1 to count operations prec double slasq2.f for instrumented SLASQ2 to count operations prec single dlasq2.f for instrumented DLASQ2 to count operations prec double slasq3.f for instrumented SLASQ3 to count operations prec single dlasq3.f for instrumented DLASQ3 to count operations prec double slasq4.f for instrumented SLASQ4 to count operations prec single dlasq4.f for instrumented DLASQ4 to count operations prec double spteqr.f for instrumented SPTEQR to count operations prec single dpteqr.f for instrumented DPTEQR to count operations prec double cpteqr.f for instrumented CPTEQR to count operations prec complex zpteqr.f for instrumented ZPTEQR to count operations prec doublecomplex sstebz.f for instrumented SSTEBZ to count operations prec single dstebz.f for instrumented DSTEBZ to count operations prec double sstedc.f for instrumented SSTEDC to count operations prec single dstedc.f for instrumented DSTEDC to count operations prec double cstedc.f for instrumented CSTEDC to count operations prec complex zstedc.f for instrumented ZSTEDC to count operations prec doublecomplex sstein.f for instrumented SSTEIN to count operations prec single dstein.f for instrumented DSTEIN to count operations prec double cstein.f for instrumented CSTEIN to count operations prec complex zstein.f for instrumented ZSTEIN to count operations prec doublecomplex ssteqr.f for instrumented SSTEQR to count operations prec single dsteqr.f for instrumented DSTEQR to count operations prec double csteqr.f for instrumented CSTEQR to count operations prec complex zsteqr.f for instrumented ZSTEQR to count operations prec doublecomplex ssterf.f for instrumented SSTERF to count operations prec single dsterf.f for instrumented DSTERF to count operations prec double stgevc.f for instrumented STGEVC to count operations prec single dtgevc.f for instrumented DTGEVC to count operations prec double ctgevc.f for instrumented CTGEVC to count operations prec complex ztgevc.f for instrumented ZTGEVC to count operations prec doublecomplex strevc.f for instrumented STREVC to count operations prec single dtrevc.f for instrumented DTREVC to count operations prec double ctrevc.f for instrumented CTREVC to count operations prec complex ztrevc.f for instrumented ZTREVC to count operations prec doublecomplex ----------------------------------------------------------- for Shar file of LARGE timing data files (xBLASA.in, path: /netlib/lapack/timing/large/ ----------------------------------------------------------- CBAND.in CBLASA.in CBLASB.in CBLASC.in CGEPTIM.in CNEPTIM.in CSEPTIM.in CSVDTIM.in CTIME.in CTIME2.in DBAND.in DBLASA.in DBLASB.in DBLASC.in DGEPTIM.in DNEPTIM.in DSEPTIM.in DSVDTIM.in DTIME.in DTIME2.in SBAND.in SBLASA.in SBLASB.in SBLASC.in SGEPTIM.in SNEPTIM.in SSEPTIM.in SSVDTIM.in STIME.in STIME2.in ZBAND.in ZBLASA.in ZBLASB.in ZBLASC.in ZGEPTIM.in ZNEPTIM.in ZSEPTIM.in ZSVDTIM.in ZTIME.in ZTIME2.in ----------------------------------------------------------- for Subdirectory of Linear Equation Timing path: /netlib/lapack/timing/lin/ ----------------------------------------------------------- ####################################### # Index for lapack/timing/lin # ####################################### atimck.f atimin.f dmflop.f dopaux.f dopbl2.f dopbl3.f dopgb.f dopla.f dprtb2.f dprtb3.f dprtb4.f dprtb5.f dprtbl.f icopy.f ilaenv.f for Special version used in conjunction with XLAENV smflop.f sopaux.f sopbl2.f sopbl3.f sopgb.f sopla.f sprtb2.f sprtb3.f sprtb4.f sprtb5.f sprtbl.f xlaenv.f for Resets ILAENV values for timing purposes # ========================================== # Available Linear Equation Timing Routines # ========================================== stimaa.f for Timing program driver for linear equation timing prec single dtimaa.f for Timing program driver for linear equation timing prec double ctimaa.f for Timing program driver for linear equation timing prec complex ztimaa.f for Timing program driver for linear equation timing prec doublecomplex # === seispk.f for Instrumented eispack routines used in timing comparisons prec single deispk.f for Instrumented eispack routines used in timing comparisons prec double # === slinpk.f for Instrumented linpack routines used in timing comparisons prec single dlinpk.f for Instrumented linpack routines used in timing comparisons prec double clinpk.f for Instrumented linpack routines used in timing comparisons prec complex zlinpk.f for Instrumented linpack routines used in timing comparisons prec doublecomplex # === stimmg.f for Generates a toeplitz test matrix prec single dtimmg.f for Generates a toeplitz test matrix prec double ctimmg.f for Generates a toeplitz test matrix prec complex ztimmg.f for Generates a toeplitz test matrix prec doublecomplex # === stimb2.f for Times the BLAS 2 routines prec single dtimb2.f for Times the BLAS 2 routines prec double ctimb2.f for Times the BLAS 2 routines prec complex ztimb2.f for Times the BLAS 2 routines prec doublecomplex stimb3.f for Times the BLAS 3 routines prec single dtimb3.f for Times the BLAS 3 routines prec double ctimb3.f for Times the BLAS 3 routines prec complex ztimb3.f for Times the BLAS 3 routines prec doublecomplex stimmm.f for Times SGEMM prec single dtimmm.f for Times DGEMM prec double ctimmm.f for Times CGEMM prec complex ztimmm.f for Times ZGEMM prec doublecomplex stimmv.f for Times individual BLAS 2 routines prec single dtimmv.f for Times individual BLAS 2 routines prec double ctimmv.f for Times individual BLAS 2 routines prec complex ztimmv.f for Times individual BLAS 2 routines prec doublecomplex # === stimbr.f for Times SGEBRD, SORGBR, and SORMBR prec single dtimbr.f for Times DGEBRD, DORGBR, and DORMBR prec double ctimbr.f for Times CGEBRD, CUNGBR, and CUNMBR prec complex ztimbr.f for Times ZGEBRD, ZUNGBR, and ZUNMBR prec doublecomplex # === stimgb.f for Times SGBTRF and SGBTRS prec single dtimgb.f for Times DGBTRF and DGBTRS prec double ctimgb.f for Times CGBTRF and CGBTRS prec complex ztimgb.f for Times ZGBTRF and ZGBTRS prec doublecomplex # === stimge.f for Times SGETRF, SGETRS, and SGETRI prec single dtimge.f for Times DGETRF, DGETRS, and DGETRI prec double ctimge.f for Times CGETRF, CGETRS, and CGETRI prec complex ztimge.f for Times ZGETRF, ZGETRS, and ZGETRI prec doublecomplex # === stimgt.f for Times SGTTRF, -TRS, -SV, and -SL. prec single dtimgt.f for Times DGTTRF, -TRS, -SV, and -SL. prec double ctimgt.f for Times CGTTRF, -TRS, -SV, and -SL. prec complex ztimgt.f for Times ZGTTRF, -TRS, -SV, and -SL. prec doublecomplex # === stimhr.f for Times the LAPACK routines SGEHRD, SORGHR, and SORMHR, and the EISPACK routine ORTHES prec single dtimhr.f for Times the LAPACK routines DGEHRD, DORGHR, and DORMHR, and the EISPACK routine ORTHES prec double ctimhr.f for Times the LAPACK routines CGEHRD, CUNGHR, and CUNMHR prec complex ztimhr.f for Times the LAPACK routines ZGEHRD, ZUNGHR, and ZUNMHR prec doublecomplex # === stimlq.f for Times the LAPACK routines to perform the LQ factorization (SGELQF, SORGLQ, SORMLQ) prec single dtimlq.f for Times the LAPACK routines to perform the LQ factorization (DGELQF, DORGLQ, DORMLQ) prec double ctimlq.f for Times the LAPACK routines to perform the LQ factorization (CGELQF, CUNGLQ, CUNMLQ) prec complex ztimlq.f for Times the LAPACK routines to perform the LQ factorization (ZGELQF, ZUNGLQ, ZUNMLQ) prec doublecomplex # === stimpb.f for Times SPBTRF and SPBTRS prec single dtimpb.f for Times DPBTRF and DPBTRS prec double ctimpb.f for Times CPBTRF and CPBTRS prec complex ztimpb.f for Times ZPBTRF and ZPBTRS prec doublecomplex # === stimpo.f for Times SPOTRF, SPOTRS, and SPOTRI prec single dtimpo.f for Times DPOTRF, DPOTRS, and DPOTRI prec double ctimpo.f for Times CPOTRF, CPOTRS, and CPOTRI prec complex ztimpo.f for Times ZPOTRF, ZPOTRS, and ZPOTRI prec doublecomplex # === stimpp.f for Times SPPTRF, SPPTRS, and SPPTRI prec single dtimpp.f for Times DPPTRF, DPPTRS, and DPPTRI prec double ctimpp.f for Times CPPTRF, CPPTRS, and CPPTRI prec complex ztimpp.f for Times ZPPTRF, ZPPTRS, and ZPPTRI prec doublecomplex # === stimpt.f for Times SPTTRF, -TRS, -SV, and -SL. prec single dtimpt.f for Times DPTTRF, -TRS, -SV, and -SL. prec double ctimpt.f for Times CPTTRF, -TRS, -SV, and -SL. prec complex ztimpt.f for Times ZPTTRF, -TRS, -SV, and -SL. prec doublecomplex # === stimql.f for Times the LAPACK routines to perform the QL factorization (SGEQLF, SORGQL, SORMQL) prec single dtimql.f for Times the LAPACK routines to perform the QL factorization (DGEQLF, DORGQL, DORMQL) prec double ctimql.f for Times the LAPACK routines to perform the QL factorization (CGEQLF, CUNGQL, CUNMQL) prec complex ztimql.f for Times the LAPACK routines to perform the QL factorization (ZGEQLF, ZUNGQL, ZUNMQL) prec doublecomplex # === stimqp.f for Times the LAPACK routines to perform the QR factorization with column pivoting (SGEQPF) prec single dtimqp.f for Times the LAPACK routines to perform the QR factorization with column pivoting (DGEQPF) prec double ctimqp.f for Times the LAPACK routines to perform the QR factorization with column pivoting (CGEQPF) prec complex ztimqp.f for Times the LAPACK routines to perform the QR factorization with column pivoting (ZGEQPF) prec doublecomplex # === stimqr.f for Times the LAPACK routines to perform the QR factorization (SGEQRF, SORGQR, SORMQR) prec single dtimqr.f for Times the LAPACK routines to perform the QR factorization (DGEQRF, DORGQR, DORMQR) prec double ctimqr.f for Times the LAPACK routines to perform the QR factorization (CGEQRF, CUNGQR, CUNMQR) prec complex ztimqr.f for Times the LAPACK routines to perform the QR factorization (ZGEQRF, ZUNGQR, ZUNMQR) prec doublecomplex # === stimrq.f for Times the LAPACK routines to perform the RQ factorization (SGERQF, SORGRQ, SORMRQ) prec single dtimrq.f for Times the LAPACK routines to perform the RQ factorization (DGERQF, DORGRQ, DORMRQ) prec double ctimrq.f for Times the LAPACK routines to perform the RQ factorization (CGERQF, CUNGRQ, CUNMRQ) prec complex ztimrq.f for Times the LAPACK routines to perform the RQ factorization (ZGERQF, ZUNGRQ, ZUNMRQ) prec doublecomplex # === stimsp.f for Times SSPTRF, SSPTRS, and SSPTRI prec single dtimsp.f for Times DSPTRF, DSPTRS, and DSPTRI prec double ctimsp.f for Times CSPTRF, CSPTRS, and CSPTRI prec complex ztimsp.f for Times ZSPTRF, ZSPTRS, and ZSPTRI prec doublecomplex ctimhp.f for Times CHPTRF, CHPTRS, and CHPTRI prec complex ztimhp.f for Times ZHPTRF, ZHPTRS, and ZHPTRI prec doublecomplex # === stimsy.f for Times SSYTRF, SSYTRS, and SSYTRI prec single dtimsy.f for Times DSYTRF, DSYTRS, and DSYTRI prec double ctimsy.f for Times CSYTRF, CSYTRS, and CSYTRI prec complex ztimsy.f for Times ZSYTRF, ZSYTRS, and ZSYTRI prec doublecomplex ctimhe.f for Times CHETRF, CHETRS, and CHETRI prec complex ztimhe.f for Times ZHETRF, ZHETRS, and ZHETRI prec doublecomplex # === stimtb.f for Times STBTRS prec single dtimtb.f for Times DTBTRS prec double ctimtb.f for Times CTBTRS prec complex ztimtb.f for Times ZTBTRS prec doublecomplex # === stimtd.f for Times the LAPACK routines SSYTRD, SORGTR, and SORMTR, and the EISPACK routine TRED1 prec single dtimtd.f for Times the LAPACK routines DSYTRD, DORGTR, and DORMTR, and the EISPACK routine TRED1 prec double ctimtd.f for Times the LAPACK routines CHETRD, CUNGTR, and CUNMTR prec complex ztimtd.f for Times the LAPACK routines ZHETRD, ZUNGTR, and ZUNMTR prec doublecomplex # === stimtp.f for Times STPTRI and STPTRS prec single dtimtp.f for Times DTPTRI and DTPTRS prec double ctimtp.f for Times CTPTRI and CTPTRS prec complex ztimtp.f for Times ZTPTRI and ZTPTRS prec doublecomplex # === stimtr.f for Times STRTRI and STRTRS prec single dtimtr.f for Times DTRTRI and DTRTRS prec double ctimtr.f for Times CTRTRI and CTRTRS prec complex ztimtr.f for Times ZTRTRI and ZTRTRS prec doublecomplex ----------------------------------------------------------- for LAPACK utility routines path: /netlib/lapack/util/ ----------------------------------------------------------- .depend dsecnd.f dlamch.f icmax1.f ilaenv.f izmax1.f lsame.f lsamen.f second.f slamch.f xerbla.f ----------------------------------------------------------- for a few eigenvalues/eigenvectors of a large path: /netlib/laso/ ----------------------------------------------------------- .depend codes daxpy.f dcopy.f ddot.f dependencies dippla.f diwla.f dlabax.f dlabcm.f dlabfc.f dlaeig.f dlager.f dlaran.f dmvpc.f dnppla.f dnrm2.f dnwla.f dortqr.f dscal.f dswap.f dvsort.f makefile readme for overview of laso dilaso.f for all eigenvalues and eigenvectors of a sparse symmetric matrix outside an excluded interval, block Lanczos with orthogonalization prec double gams d4a1, d4a7 saxpy.f scopy.f sdot.f silaso.f for all eigenvalues and eigenvectors of a sparse symmetric matrix outside an excluded interval, block Lanczos with orthogonalization prec single gams d4a1, d4a7 dnlaso.f for a few eigenvalues and eigenvectors of a sparse symmetric matrix from either end of the spectrum, block Lanczos with orthogonalization prec double gams d4a1, d4a7 sippla.f siwla.f slabax.f slabcm.f slabfc.f slaeig.f slager.f slaran.f smvpc.f snlaso.f for a few eigenvalues and eigenvectors of a sparse symmetric matrix from either end of the spectrum, block Lanczos with orthogonalization prec single gams d4a1, d4a7 doc for user manual for the LASO package lanczos3 for sample driver program for the LASO package snppla.f snrm2.f snwla.f sortqr.f sscal.f sswap.f svsort.f to.scott urand.f ----------------------------------------------------------- for least squares path: /netlib/lawson-hanson/ ----------------------------------------------------------- all ----------------------------------------------------------- for various functions complementing the bigger path: /netlib/linalg/ ----------------------------------------------------------- # The templates files that were here are now in /netlib/templates/. readme for overview of linalg axxbc.f for solution of A*X + X*B = C lang fortran by Stephen Nash binary-lu for lu decomposition on a binary matrix in binary arithmetic. by Burt Garbow, ANL, 11/86 bemw/ for 4 implementations of the mixed block elimination method by W. Govaerts and J. D. Pryce lang fortran prec single real, double real, single complex, double complex gams d2a4, d2b4, d2c4 bmr/ for An MPI implementation of the Broadcast-Multiply-Roll algorithm for parallel matrix multiplication by Anna Tsao, Supercomputing Research Center, tsao@super.org gams d1b6 encoding compress bsmp.f by Bank and Smith for sparse LU made simple gams d2a4, d2b4 cg/ for A collection of conjugate gradient type iterative methods for distributed memory architectures, using PVM as the message passing protocol. Includes demo and X window interface. (371886 bytes) by Victor Eijkhout conest for estimates the 1-norm of a square, complex matrix A. reverse communication is used for evaluating matrix-vector product. by N.J. Higham, 1987. dcgc for a preconditioned conjugate gradient code written in 'c' using double precision. by Mark Seager, LLNL, 10/26/86 lang c gams d2b1b, d2b4 eiginv for numerical solution of the inverse eigenvalue problem by Burt Garbow, ANL, 11/86 gemmw/ for a highly portable Level 3 BLAS implementation of Winograd's variant Strassen's matrix multiplication algorithm by douglas-craig@CS.YALE.EDU ("Craig C. Douglas") May 22 1992 gams d1b6 goliath.f for Fortran with driver for exact analysis of sparse rectangular rational linear systems by Peter Alfeld and David Eyre, 1989. goliath.tex for user manual for the exact analysis of sparse rectangular rational linear systems by Peter Alfeld and David Eyre, 1989. guptri for This package of routines contains robust software with error bounds for computing the generalized Schur decomposition of an arbitrary pencil A - zB (regular or singular). The decomposition (guptri - generalized upper triangular form) is a generalization of the Schur canonical form of A -zI to matrix pencils and reveals the Kronecker structure of a singular pencil. More information of the package is placed in README, where you also can find references to papers describing software, algorithms and error bounds used in the package. The package is developed by Jim Demmel and Bo Kagstrom (adresses in README). gams d4b4 lang fortran hssxev/ for - An out-of-core symmetric eigensolve r for large dense problems. It uses block householder reductions to reduce the full dense matrix to banded form. The banded form is then reduced to tridiagonal form and all eigenvalues are computed. Specified eigenvectors are computed using inverse iteration with the band matrix and then back transformed to orginal form. by Roger Grimes, Boeing Computer Services, Nov 1987 gams d4a1 ibmblas3/ for A Fortran implementation of the Level 3 BLAS optimized for the IBM 3090. Bo Kagstrom bokg@cs.umu.se Tue Oct 30 10:37:01 1990 gams d1b iccg for nonsymmetric sparse solver using implicite normal equations by Dongarra, Leaf, and Minkoff. lang fortran gams d2a4 iccg-doc by Dongarra, Leaf, and Minkoff. iccg-paper lang troff by Dongarra, Leaf, and Minkoff. l3abdsol/ for almost block diagonal linear systems by Cyphers and Paprzycki ref SMU Software Report 92-3 prec single or double lang Fortran 77 gams d2a2 lalqmr/ for A package implementing the Freund, Gutknecht, and Nachtigal version of the look-ahead Lanczos algorithm. Includes driver code to compute eigenvalues of matrices, as well as a linear systems solver using the quasi-minimal residual method. Roland Freund and Noel Nachtigal, RIACS by Noel M. Nachtigal Tue Jan 14 16:20:35 1992 gams d2a1, d4a2 laspack/ for LASPack is a package for solving large sparse systems of linear equations like those which arise from discretization of partial differential equations. It contains classical as well as selected state-of-the-art algorithms which are commonly used for large sparse systems such as CG-like methods for non-symmetric systems (CGN, GMRES, BiCG, QMR, CGS, and BiCGStab) and multilevel methods such as multigrid and conjugate gradient method preconditioned by multigrid and BPX preconditioners. LASPack is written in ANSI C and is thus largely portable. Postscript and HTML version of the reference manual are included. by Tomas Skalicky lang c gams d2a4 lsqr for finds a solution x to the following problems: 1. Unsymmetric equations -- solve A*x = b 2. Linear least squares -- solve A*x = b in the least-squares sense 3. Damped least squares -- solve ( A )*x = ( b ) damp*I ) ( 0 in the least-squares sense where A is a matrix with m rows and n columns, b is an m-vector, and damp is a scalar. (All quantities are real.) The matrix A is intended to be large and sparse. It is accessed by means of subroutine calls of the form CALL APROD ( mode,m,n,x,y,LENIW,LENRW,IW,RW ) lang fortran gams d2a4, d9a1 sgefac for a 'c' implementation of the LINPACK routines sgefa and sgesl which do LU decomposition with partial pivoting (single precision). by Mark Seager, LLNL, 10/26/86 gams d2a1 lang c smmp sonest for estimates the 1-norm of a square, real matrix A. reverse communication is used for evaluating matrix-vector product. by N.J. Higham, 1987. sparsdyn/ for SparseDynamics is a sparse matrix algorithm development tool that runs on a Sun workstation under suntools. It allows the developer to observe the dynamic changes in a sparse matrix as it is operated on by a sparse matrix algorithm. In its current state, it only demonstrates an early sequential version of the D2 algorithm. SparseDynamics is a prototype package, so no documentation is provided on how to connect it to a different sparse matrix algorithm. It has been tested on a Sun 3/60 with 4 megabytes, a SPARCsystem 330, and a SPARCstation 1. For more information, refer to "A nondeterministic parallel algorithm for unsymmetric sparse LU factorization," T. A. Davis, and P.-C. Yew, SIAM Journal on Matrix Analysis and Applications (July 1990). gams d2a4, s3 sqr/ symmlq for is designed to solve the system of linear equations A*x = b where A is an n*n symmetric matrix and b is a given vector. The matrix A is not required to be positive definite. (If A is known to be definite, the method of conjugate gradients may be used -- it will require about the same number of iterations as SYMMLQ but slightly less work per iteration.) The matrix A is intended to be large and sparse. It is accessed by means of a subroutine call of the form CALL APROD( n,x,y ) which must return the product y = A*x for any given vector x. gams d2b4 testmats/ # A collection of 44 parametrized test matrices, in the form of MATLAB M-files. The matrices are mostly square, dense, nonrandom, and of arbitrary dimension. The collection includes matrices with known inverses or known eigenvalues; ill-conditioned or rank deficient matrices; and symmetric, positive definite, orthogonal, defective, involutary, and totally positive matrices. In addition, there are some further M-files of interest for viewing and modifying the test matrices. The M-files are provided in the form of a Unix shar file. By Nick Higham, July 4 1989. tricyclic.f title tricyc for vectorized in-place tridiagonal solution by Dodson and Levin ref SIMAX 13:4 1246-1254 (1992) size 11 kilobytes prec real age stable gams D2a2a rel ok # No pivoting underwood for A version of block lanczos based on Richard Underwood's work. linpackc++ for partial interface to LINPACK routines for C++ # single values are passed by reference, arrays by pointer gams d2a1, d3a1 qmrpack/ for iterative solution of linear systems by Roland Freund and Noel Nachtigal alg QMR (with lookahead, no-lookahead, transpose-free, and other variants) size 500 kilobytes # Since this is a large, binary file you must use ftp, not email, to get it. gams d2a1, d2b1, d2c1, d4a1, d4a2, d4a4 qmr/ for iterative solution of linear systems by Roland Freund and Noel Nachtigal alg QMR (with lookahead, no-lookahead, transpose-free, and other variants) gams d2a1, d2b1, d2c1, d4a1, d4a2, d4a4 umfpack2/ title Unsymmetric-pattern MultiFrontal Package (UMFPACK Version 2.0) for Solves Ax=b using LU factorization, where A is a general unsymmetric sparse matrix. The method relies on dense matrix kernels (the BLAS) to factorize rectangular frontal matrices, which are dense submatrices of the sparse matrix being factorized. # Includes a Users' Guide (README file in ASCII) and both double and single precision versions. Requires the BLAS, and two subroutines from the Harwell MA28 code (available from netlib). For non-commercial use only (see the licensing restrictions in the package itself). Since this is a binary file, you must use ftp, not email, to get it. lang ANSI Fortran 77 by Tim Davis, University of Florida (davis@cis.ufl.edu or na.tdavis@na-net.ornl.gov). Joint work with Iain Duff. gams d2a4 prec single, double ----------------------------------------------------------- for 4 implementations of the mixed block elimination path: /netlib/linalg/bemw/ ----------------------------------------------------------- cbemw.f dbemw.f readme sbemw.f ssbemw.f stest.f stest1.f ----------------------------------------------------------- for An MPI implementation of the path: /netlib/linalg/bmr/ ----------------------------------------------------------- README_BIMMER code/ create_bimmer make_include/ ----------------------------------------------------------- path: /netlib/linalg/bmr/code/ ----------------------------------------------------------- include/ mm/ mm_test/ utility/ ----------------------------------------------------------- path: /netlib/linalg/bmr/code/include/ ----------------------------------------------------------- README mm.h mm_test.h stdeig.h ----------------------------------------------------------- path: /netlib/linalg/bmr/code/mm/ ----------------------------------------------------------- Makefile README prism_v_bca_rb.c prism_v_bca_rc.c prism_v_bcb_rc.c prism_v_bimmer.c prism_v_dlacpy.f prism_v_ra_bcb.c prism_v_ra_bcc.c prism_v_rb_bcc.c prism_v_scl_mtrx.c ----------------------------------------------------------- path: /netlib/linalg/bmr/code/mm_test/ ----------------------------------------------------------- Makefile README ap1000-.run intelnx-ch_nx.run meiko-ch_meiko.run paragon-ch_nx.run prism_bimmer_test.c prism_v_error_chk.c rs6000-ch_eui-ANL.run rs6000-ch_eui-NAS.run rs6000-mpif-ANL.run rs6000-mpif-NAS.run sun4-ch_cmmd.run sun4-ch_p4.run ----------------------------------------------------------- path: /netlib/linalg/bmr/code/utility/ ----------------------------------------------------------- Make_bimmer README prism_i_datatype_size.c prism_i_ldim.c prism_i_ldwk.c prism_s_m_d_alloc_matrix.c prism_s_v_generror.c prism_v_bc.c prism_v_copy.c prism_v_free_matrix.c prism_v_init_var.c prism_v_layout.c prism_v_prt_m.c prism_v_skew.c prism_x_datatype.c ----------------------------------------------------------- path: /netlib/linalg/bmr/make_include/ ----------------------------------------------------------- Make-ap1000-.include Make-intelnx-ch_nx.include Make-meiko-ch_meiko.include Make-paragon-ch_nx.include Make-rs6000-ch_eui.include Make-rs6000-mpif.include Make-sun4-ch_cmmd.include Make-sun4-ch_p4.include README ----------------------------------------------------------- for A collection of conjugate gradient type path: /netlib/linalg/cg/ ----------------------------------------------------------- pvm3/ ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/ ----------------------------------------------------------- examples/ ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/ ----------------------------------------------------------- cg/ ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/ ----------------------------------------------------------- AFX8/ ALPHA/ BFLY/ BSD386/ C2MP/ CM2/ CM5/ CRAY/ CRAYSMP/ HP300/ HPPA/ I860/ IPSC2/ KSR1/ Makefile NEXT/ PGON/ PMAX/ RS6K/ Readme SGI/ SUN2/ SUN3/ SUN4/ SUN4SOL2/ SYMM/ TITN/ UVAX/ VAX/ Xdemo aimk cg_run input.data/ local.data/ man/ pvmgetarch src/ util/ ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/AFX8/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/ALPHA/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/BFLY/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/BSD386/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/C2MP/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/CM2/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/CM5/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/CRAY/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/CRAYSMP/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/HP300/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/HPPA/ ----------------------------------------------------------- HPtimer Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/I860/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/IPSC2/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/KSR1/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/NEXT/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/PGON/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/PMAX/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/RS6K/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/SGI/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/SUN2/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/SUN3/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/SUN4/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/SUN4SOL2/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/SYMM/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/TITN/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/UVAX/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/VAX/ ----------------------------------------------------------- Makefile cg_headers.h ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/input.data/ ----------------------------------------------------------- ! a_inprod.bat abs_stop.bat all_read axb_stop.bat bcgs.bat bicg.bat cg.bat cgne.bat cgs.bat compress_col.bat compress_row.bat compress_sym.bat coor2matlab dbx.bat def_fmt def_meth def_trace dst_mat fish fulilu fuljac full_recur.bat fulsor gg-norm.bat gh-norm.bat gmres gmres.bat hh-norm.bat ilujac indef inprod int_mat it-diff.bat lapjac load_rhs.bat make_extdiv make_extmat mat_cprs.bat mat_diag.bat mat_ext.bat mat_grid.bat mat_int.bat matlab2coor max_iter.bat min_res.bat minres.bat mod_gs.bat no_spectrum nodbx nomemch nonblock.bat normal_eq.bat nscg.bat one_read parilu parsor part_consec.bat part_file part_func.bat part_point part_simple part_zilch.bat poly prec_block.bat prec_colour.bat prec_full_ilu.bat prec_full_jacobi.bat prec_full_ssor.bat prec_ilu_jacobi.bat prec_loc_ilu.bat prec_loc_jac.bat prec_loc_sor.bat prec_loc_ssor.bat prec_neu.bat prec_none.bat prec_par_ilu.bat prec_par_ssor.bat prec_ssor_jacobi.bat prec_sweep.bat prec_swsweep.bat prec_test.bat proc_grid qmr.bat regen.bat rel_stop.bat restart.bat rhs_load rhs_stop.bat rhs_unit rstart size sorjac spars_symm.bat spars_unsymm.bat store_symm.bat store_unsymm.bat sure_stop.bat symm tcg test_external_mat tmp tolerance.bat trace_allocation.bat trace_communication.bat trace_fileio.bat trace_iteration.bat trace_log-file.bat trace_matrix-dump.bat trace_memtest.bat trace_paragraph.bat trace_progress.bat trace_screen.bat trace_setup.bat trace_solution-dump.bat trace_stats.bat trunc.bat twoterm unit_rhs.bat unsym unsync.bat yes_spectrum yesdbx yesmemch ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/local.data/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/man/ ----------------------------------------------------------- Makefile man.dvi man.ps ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/src/ ----------------------------------------------------------- demo/ ftnchek/ library/ ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/src/demo/ ----------------------------------------------------------- cghost.f demo.f demo_cinp.c demo_cmatread.c demo_comv.f demo_matread.f mat_read.c node.f r-auxs.f r-blas_auxs.f r-coma.f r-comm.f r-comv.f r-demo.f r-demo_cinp.c r-demo_cmatread.c r-demo_comv.f r-demo_matread.f r-domain.f r-iter.f r-lapack_auxs.f r-mat_crs.f r-mat_grd.f r-mat_read.c r-matrix.f r-node.f r-prec.f r-readr.f r-views.f readr.f ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/src/ftnchek/ ----------------------------------------------------------- c-acomm.f c-clock00.f c-demo_cinp.f c-iterate.f c-precreate.f c-traffic.f ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/src/library/ ----------------------------------------------------------- acomm.c auxs.f blas_auxs.f clock00.c coma.f comm.f domain.f iter.f iterate.c lapack_auxs.f mat_crs.f mat_dia.f mat_grd.f matrix.f prec.f prec_crs.f prec_dia.f prec_grd.f precreate.c traffic.c varmap.f views.f ----------------------------------------------------------- path: /netlib/linalg/cg/pvm3/examples/cg/util/ ----------------------------------------------------------- Makefile asmbl_cprs.f asmbl_grid.f auxs.f blas_auxs.f comm.f custom.f demo.f demo_matread.f domain.f gendiv.f genmat.f hb_read.f lapack_auxs.f mat_crs.f mat_dia.f mat_grd.f matrix.f node.f readr.f user.f views.f ----------------------------------------------------------- for a highly portable Level 3 BLAS implementation of path: /netlib/linalg/gemmw/ ----------------------------------------------------------- Makefile README Runs/ clock.c gemmw.c gemmw.h gemmwh.yuk gemul3.f gemul3.rat gemul390.f gemul390.rat gemul3n.f heroux-1.f jcp.tex pfblas.f pfblas.rat pfblas90.f pfblas90.rat second.c testc.c testc.f testd.c testd.f tests.c tests.f testz.c testz.f urand.c winolap.c ----------------------------------------------------------- path: /netlib/linalg/gemmw/Runs/ ----------------------------------------------------------- Makefile alpha.blas c90.sci conv.f conv.rat es9000-982.essl figs.aux figs.empty figs.tex lnblnk.f lnblnk.rat r6k560.blas r6k560.essl r6k560.nag testd.output testz.output ymp.sci ----------------------------------------------------------- for - An out-of-core symmetric eigensolve r for path: /netlib/linalg/hssxev/ ----------------------------------------------------------- hssxev.f An out-of-core symmetric eigensolve r for large dense problems. It uses block householder reductions to reduce the full dense matrix to banded form. The banded form is then reduced to tridiagonal form and all eigenvalues are computed. Specified eigenvectors are computed using inverse iteration with the band matrix and then back transformed to orginal form. test-program.f tex ----------------------------------------------------------- for A Fortran implementation of the Level 3 BLAS path: /netlib/linalg/ibmblas3/ ----------------------------------------------------------- README cld.f dgemm.f dsymm.f dsyr2k.f dsyrk.f dtrmm.f dtrsm.f lsame.f xerbla.f ----------------------------------------------------------- for almost block diagonal linear systems path: /netlib/linalg/l3abdsol/ ----------------------------------------------------------- abd2.f abdml.f blkchk.f example1.f read.me sget.f test1.f ----------------------------------------------------------- for A package implementing the Freund, Gutknecht, path: /netlib/linalg/lalqmr/ ----------------------------------------------------------- dble/ ----------------------------------------------------------- path: /netlib/linalg/lalqmr/dble/ ----------------------------------------------------------- README bru/ csr/ dat/ dns/ inc/ lal/ local.mak makefile skeleton.mak sup/ v.dat version.h w.dat x.dat ----------------------------------------------------------- path: /netlib/linalg/lalqmr/dble/bru/ ----------------------------------------------------------- axb.inc cpyrit.doc daxb.f daxbpr.f makefile ----------------------------------------------------------- path: /netlib/linalg/lalqmr/dble/csr/ ----------------------------------------------------------- cpyrit.doc csr.inc dcilut.f dclilut.f dclssor.f dcrilut.f dcrssor.f dcsr.f ilut.f makefile sparskit.f ----------------------------------------------------------- path: /netlib/linalg/lalqmr/dble/dat/ ----------------------------------------------------------- csr.dat csrv.dat csrw.dat csrx.dat dns.dat dnsv.dat dnsw.dat ----------------------------------------------------------- path: /netlib/linalg/lalqmr/dble/dns/ ----------------------------------------------------------- cpyrit.doc ddlssor.f ddns.f ddrssor.f dns.inc makefile ----------------------------------------------------------- path: /netlib/linalg/lalqmr/dble/inc/ ----------------------------------------------------------- dimblk.inc precon.inc ----------------------------------------------------------- path: /netlib/linalg/lalqmr/dble/lal/ ----------------------------------------------------------- cpyrit.doc dcoeff.f deig.F deiglal.F dlal.F dlal.inc dsys.F dsysbcg.F dsyslal.F getomg.f makefile ----------------------------------------------------------- path: /netlib/linalg/lalqmr/dble/sup/ ----------------------------------------------------------- cpyrit.doc eispack.f linpack.f makefile support.f ----------------------------------------------------------- for LASPack is a package for solving large sparse path: /netlib/linalg/laspack/ ----------------------------------------------------------- install laspack/ readme xc/ ----------------------------------------------------------- path: /netlib/linalg/laspack/laspack/ ----------------------------------------------------------- check/ copyrght.h doc/ eigenval.c eigenval.h elcmp.h errhandl.c errhandl.h examples/ factor.c factor.h html/ itersolv.c itersolv.h lastypes.h makefile matrix.c matrix.h mlsolv.c mlsolv.h operats.c operats.h precond.c precond.h qmatrix.c qmatrix.h rtc.c rtc.h vector.c vector.h version.h ----------------------------------------------------------- path: /netlib/linalg/laspack/laspack/check/ ----------------------------------------------------------- bpxpcg.tpl check mg.tpl mgpcg.tpl mlstest.org ----------------------------------------------------------- path: /netlib/linalg/laspack/laspack/doc/ ----------------------------------------------------------- laspack1.ps laspack2.ps ----------------------------------------------------------- path: /netlib/linalg/laspack/laspack/examples/ ----------------------------------------------------------- lastest/ matropt/ mlstest/ vectopt/ ----------------------------------------------------------- path: /netlib/linalg/laspack/laspack/examples/lastest/ ----------------------------------------------------------- config lastest.c makefile ----------------------------------------------------------- path: /netlib/linalg/laspack/laspack/examples/matropt/ ----------------------------------------------------------- config makefile matropt.c testproc.c testproc.h ----------------------------------------------------------- path: /netlib/linalg/laspack/laspack/examples/mlstest/ ----------------------------------------------------------- config extrsolv.c extrsolv.h makefile mlstest.c mlstest.h ----------------------------------------------------------- path: /netlib/linalg/laspack/laspack/examples/vectopt/ ----------------------------------------------------------- config makefile testproc.c testproc.h vectopt.c ----------------------------------------------------------- path: /netlib/linalg/laspack/laspack/html/ ----------------------------------------------------------- bugs.html change_begin.gif change_delete.gif change_end.gif comment.html contents_motif.gif cross_ref_motif.gif foot_motif.gif form-mail.pl image.gif images.aux images.log images.pl images.tex img1.gif img2.gif index_motif.gif labels.pl laspack.html netlib.html next_group_motif.gif next_group_motif_gr.gif next_motif.gif next_motif_gr.gif node1.html node10.html node11.html node12.html node13.html node14.html node15.html node16.html node17.html node18.html node19.html node2.html node20.html node21.html node22.html node23.html node24.html node25.html node26.html node27.html node28.html node29.html node3.html node4.html node5.html node6.html node7.html node8.html node9.html previous_group_motif.gif previous_group_motif_gr.gif previous_motif.gif previous_motif_gr.gif up_motif.gif up_motif_gr.gif ----------------------------------------------------------- path: /netlib/linalg/laspack/xc/ ----------------------------------------------------------- getopts.c getopts.h makefile version.h xstring.c xstring.h xtypes.h ----------------------------------------------------------- for iterative solution of linear systems path: /netlib/linalg/qmr/ ----------------------------------------------------------- .depend caxpby.f for support routine for QMRPACK codes by Roland Freund and Noel Nachtigal prec single precision complex cpyrit.doc for copyright for QMRPACK codes by Roland Freund and Noel Nachtigal kind text crandn.f for support routine for QMRPACK codes by Roland Freund and Noel Nachtigal gams L6 prec single precision complex cscpl.f for iterative solution of complex symmetric linear systems alg coupled two-term QMR with look-ahead by Roland Freund and Noel Nachtigal gams D2c1 prec single precision complex cscpx.f for iterative solution of complex symmetric linear systems alg coupled two-term QMR without look-ahead by Roland Freund and Noel Nachtigal gams D2c1 prec single precision complex cslal.f for few eigenvalues of complex symmetric matrices alg look-ahead Lanczos for eigenvalues by Roland Freund and Noel Nachtigal gams D4a4 prec single precision complex csqbg.f for iterative solution of complex symmetric linear systems alg QMR-from-BCG by Roland Freund and Noel Nachtigal gams D2c1 prec single precision complex csqmr.f for iterative solution of complex symmetric linear systems alg three-term QMR with look-ahead by Roland Freund and Noel Nachtigal gams D2c1 prec single precision complex csqmx.f for iterative solution of complex symmetric linear systems alg three-term QMR without look-ahead by Roland Freund and Noel Nachtigal gams D2c1 prec single precision complex cucpl.f for iterative solution of nonsymmetric linear systems alg coupled two-term QMR with look-ahead by Roland Freund and Noel Nachtigal gams D2c1 prec single precision complex cucpx.f for iterative solution of nonsymmetric linear systems alg coupled two-term QMR without look-ahead by Roland Freund and Noel Nachtigal gams D2c1 prec single precision complex culal.f for few eigenvalues of nonsymmetric matrices alg look-ahead Lanczos for eigenvalues by Roland Freund and Noel Nachtigal gams D4a4 prec single precision complex cuqbg.f for iterative solution of nonsymmetric linear systems alg QMR-from-BCG by Roland Freund and Noel Nachtigal gams D2c1 prec single precision complex cuqmr.f for iterative solution of nonsymmetric linear systems alg three-term QMR with look-ahead by Roland Freund and Noel Nachtigal gams D2c1 prec single precision complex cuqmx.f for iterative solution of nonsymmetric linear systems alg three-term QMR without look-ahead by Roland Freund and Noel Nachtigal gams D2c1 prec single precision complex cutfx.f for iterative solution of nonsymmetric linear systems alg transpose-free QMR by Roland Freund and Noel Nachtigal gams D2c1 prec single precision complex daxpby.f for support routine for QMRPACK codes by Roland Freund and Noel Nachtigal prec double precision real dependencies dhpsrt.f for support routine for QMRPACK codes alg heapsort by Roland Freund and Noel Nachtigal gams N6a2b prec double precision real drandn.f for support routine for QMRPACK codes by Roland Freund and Noel Nachtigal gams L6 prec double precision real dscpl.f for iterative solution of real symmetric linear systems alg coupled two-term QMR with look-ahead by Roland Freund and Noel Nachtigal gams D2b1 prec double precision real dscpx.f for iterative solution of real symmetric linear systems alg coupled two-term QMR without look-ahead by Roland Freund and Noel Nachtigal gams D2b1 prec double precision real dslal.f for few eigenvalues of real symmetric matrices alg look-ahead Lanczos for eigenvalues by Roland Freund and Noel Nachtigal gams D4a1 prec double precision real dsqbg.f for iterative solution of real symmetric linear systems alg QMR-from-BCG by Roland Freund and Noel Nachtigal gams D2b1 prec double precision real dsqmr.f for iterative solution of real symmetric linear systems alg three-term QMR with look-ahead by Roland Freund and Noel Nachtigal gams D2b1 prec double precision real dsqmx.f for iterative solution of real symmetric linear systems alg three-term QMR without look-ahead by Roland Freund and Noel Nachtigal gams D2b1 prec double precision real ducpl.f for iterative solution of nonsymmetric linear systems alg coupled two-term QMR with look-ahead by Roland Freund and Noel Nachtigal gams D2a1 prec double precision real ducpx.f for iterative solution of nonsymmetric linear systems alg coupled two-term QMR without look-ahead by Roland Freund and Noel Nachtigal gams D2a1 prec double precision real dulal.f for few eigenvalues of nonsymmetric matrices alg look-ahead Lanczos for eigenvalues by Roland Freund and Noel Nachtigal gams D4a2 prec double precision real duqbg.f for iterative solution of nonsymmetric linear systems alg QMR-from-BCG by Roland Freund and Noel Nachtigal gams D2a1 prec double precision real duqmr.f for iterative solution of nonsymmetric linear systems alg three-term QMR with look-ahead by Roland Freund and Noel Nachtigal gams D2a1 prec double precision real duqmx.f for iterative solution of nonsymmetric linear systems alg three-term QMR without look-ahead by Roland Freund and Noel Nachtigal gams D2a1 prec double precision real dutfx.f for iterative solution of nonsymmetric linear systems alg transpose-free QMR by Roland Freund and Noel Nachtigal gams D2a1 prec double precision real dznrm1.f for support routine for QMRPACK codes by Roland Freund and Noel Nachtigal prec double precision complex saxpby.f for support routine for QMRPACK codes by Roland Freund and Noel Nachtigal prec single precision real scnrm1.f for support routine for QMRPACK codes by Roland Freund and Noel Nachtigal prec single precision real shpsrt.f for support routine for QMRPACK codes alg heapsort by Roland Freund and Noel Nachtigal gams N6a2b prec single precision real srandn.f for support routine for QMRPACK codes by Roland Freund and Noel Nachtigal gams L6 prec single precision real sscpl.f for iterative solution of real symmetric linear systems alg coupled two-term QMR with look-ahead by Roland Freund and Noel Nachtigal gams D2b1 prec single precision real sscpx.f for iterative solution of real symmetric linear systems alg coupled two-term QMR without look-ahead by Roland Freund and Noel Nachtigal gams D2b1 prec single precision real sslal.f for few eigenvalues of real symmetric matrices alg look-ahead Lanczos for eigenvalues by Roland Freund and Noel Nachtigal gams D4a1 prec single precision real ssqbg.f for iterative solution of real symmetric linear systems alg QMR-from-BCG by Roland Freund and Noel Nachtigal gams D2b1 prec single precision real ssqmr.f for iterative solution of real symmetric linear systems alg three-term QMR with look-ahead by Roland Freund and Noel Nachtigal gams D2b1 prec single precision real ssqmx.f for iterative solution of real symmetric linear systems alg three-term QMR without look-ahead by Roland Freund and Noel Nachtigal gams D2b1 prec single precision real sucpl.f for iterative solution of nonsymmetric linear systems alg coupled two-term QMR with look-ahead by Roland Freund and Noel Nachtigal gams D2a1 prec single precision real sucpx.f for iterative solution of nonsymmetric linear systems alg coupled two-term QMR without look-ahead by Roland Freund and Noel Nachtigal gams D2a1 prec single precision real sulal.f for few eigenvalues of nonsymmetric matrices alg look-ahead Lanczos for eigenvalues by Roland Freund and Noel Nachtigal gams D4a2 prec single precision real suqbg.f for iterative solution of nonsymmetric linear systems alg QMR-from-BCG by Roland Freund and Noel Nachtigal gams D2a1 prec single precision real suqmr.f for iterative solution of nonsymmetric linear systems alg three-term QMR with look-ahead by Roland Freund and Noel Nachtigal gams D2a1 prec single precision real suqmx.f for iterative solution of nonsymmetric linear systems alg three-term QMR without look-ahead by Roland Freund and Noel Nachtigal gams D2a1 prec single precision real sutfx.f for iterative solution of nonsymmetric linear systems alg transpose-free QMR by Roland Freund and Noel Nachtigal gams D2a1 prec single precision real zaxpby.f for support routine for QMRPACK codes by Roland Freund and Noel Nachtigal prec double precision complex zrandn.f for support routine for QMRPACK codes by Roland Freund and Noel Nachtigal gams L6 prec double precision complex zscpl.f for iterative solution of complex symmetric linear systems alg coupled two-term QMR with look-ahead by Roland Freund and Noel Nachtigal gams D2c1 prec double precision complex zscpx.f for iterative solution of complex symmetric linear systems alg coupled two-term QMR without look-ahead by Roland Freund and Noel Nachtigal gams D2c1 prec double precision complex zslal.f for few eigenvalues of complex symmetric matrices alg look-ahead Lanczos for eigenvalues by Roland Freund and Noel Nachtigal gams D4a4 prec double precision complex zsqbg.f for iterative solution of complex symmetric linear systems alg QMR-from-BCG by Roland Freund and Noel Nachtigal gams D2c1 prec double precision complex zsqmr.f for iterative solution of complex symmetric linear systems alg three-term QMR with look-ahead by Roland Freund and Noel Nachtigal gams D2c1 prec double precision complex zsqmx.f for iterative solution of complex symmetric linear systems alg three-term QMR without look-ahead by Roland Freund and Noel Nachtigal gams D2c1 prec double precision complex zucpl.f for iterative solution of nonsymmetric linear systems alg coupled two-term QMR with look-ahead by Roland Freund and Noel Nachtigal gams D2c1 prec double precision complex zucpx.f for iterative solution of nonsymmetric linear systems alg coupled two-term QMR without look-ahead by Roland Freund and Noel Nachtigal gams D2c1 prec double precision complex zulal.f for few eigenvalues of nonsymmetric matrices alg look-ahead Lanczos for eigenvalues by Roland Freund and Noel Nachtigal gams D4a4 prec double precision complex zuqbg.f for iterative solution of nonsymmetric linear systems alg QMR-from-BCG by Roland Freund and Noel Nachtigal gams D2c1 prec double precision complex zuqmr.f for iterative solution of nonsymmetric linear systems alg three-term QMR with look-ahead by Roland Freund and Noel Nachtigal gams D2c1 prec double precision complex zuqmx.f for iterative solution of nonsymmetric linear systems alg three-term QMR without look-ahead by Roland Freund and Noel Nachtigal gams D2c1 prec double precision complex zutfx.f for iterative solution of nonsymmetric linear systems alg transpose-free QMR by Roland Freund and Noel Nachtigal gams D2c1 prec double precision complex ----------------------------------------------------------- for iterative solution of linear systems path: /netlib/linalg/qmrpack/ ----------------------------------------------------------- History INSTALL MANIFEST Makefile README Setup algs/ cpyrit.doc csr/ filelist incl/ libs/ ----------------------------------------------------------- path: /netlib/linalg/qmrpack/algs/ ----------------------------------------------------------- Makefile filelist scpl/ scpx/ slal/ sqbg/ sqmr/ sqmx/ ucpl/ ucpx/ ulal/ uqbg/ uqmr/ uqmx/ utfx/ ----------------------------------------------------------- path: /netlib/linalg/qmrpack/algs/scpl/ ----------------------------------------------------------- Makefile dscpl.src zscpl.doc zscpl.src ----------------------------------------------------------- path: /netlib/linalg/qmrpack/algs/scpx/ ----------------------------------------------------------- Makefile zscpx.doc zscpx.src ----------------------------------------------------------- path: /netlib/linalg/qmrpack/algs/slal/ ----------------------------------------------------------- Makefile dslal.src zslal.doc zslal.src ----------------------------------------------------------- path: /netlib/linalg/qmrpack/algs/sqbg/ ----------------------------------------------------------- Makefile zsqbg.doc zsqbg.src ----------------------------------------------------------- path: /netlib/linalg/qmrpack/algs/sqmr/ ----------------------------------------------------------- Makefile dsqmr.src dsqmrvw.src zsqmr.doc zsqmr.src zsqmrvw.src ----------------------------------------------------------- path: /netlib/linalg/qmrpack/algs/sqmx/ ----------------------------------------------------------- Makefile zsqmx.doc zsqmx.src ----------------------------------------------------------- path: /netlib/linalg/qmrpack/algs/ucpl/ ----------------------------------------------------------- Makefile ducpl.src filelist zucpl.doc zucpl.src zucplcof.src zucplcom.inc ----------------------------------------------------------- path: /netlib/linalg/qmrpack/algs/ucpx/ ----------------------------------------------------------- Makefile filelist zucpx.doc zucpx.src zucpxcof.src ----------------------------------------------------------- path: /netlib/linalg/qmrpack/algs/ulal/ ----------------------------------------------------------- Makefile dulal.src filelist zulal.doc zulal.src zulalcof.src zulalcom.inc ----------------------------------------------------------- path: /netlib/linalg/qmrpack/algs/uqbg/ ----------------------------------------------------------- Makefile filelist zuqbg.doc zuqbg.src ----------------------------------------------------------- path: /netlib/linalg/qmrpack/algs/uqmr/ ----------------------------------------------------------- Makefile duqmr.src duqmrcof.chb duqmrvw.src filelist zuqmr.doc zuqmr.src zuqmrcof.src zuqmrcom.inc zuqmromg.src zuqmrvw.src ----------------------------------------------------------- path: /netlib/linalg/qmrpack/algs/uqmx/ ----------------------------------------------------------- Makefile filelist zuqmx.doc zuqmx.src zuqmxcof.src ----------------------------------------------------------- path: /netlib/linalg/qmrpack/algs/utfx/ ----------------------------------------------------------- Makefile filelist zutfx.doc zutfx.src ----------------------------------------------------------- path: /netlib/linalg/qmrpack/csr/ ----------------------------------------------------------- Makefile csr.inc data/ filelist zascraw.src zcoocsr.f zmagic.inc zrawasc.src zsillt.src zslal.src zsplib.src zsssor.src zssys.src ztransp.f zubcg.src zucpl.src zucpx.src zuilut.src zulal.src zuqbg.src zuqmr.src zuqmx.src zusrc.inc zussor.src zusys.src zutfx.src ----------------------------------------------------------- path: /netlib/linalg/qmrpack/csr/data/ ----------------------------------------------------------- ducsr.dat ducsrb.dat ducsrx.dat filelist zcsrx.dat zscsr.dat zscsrb.dat zsexact.dat zucsr.dat zucsrb.dat zuexact.dat ----------------------------------------------------------- path: /netlib/linalg/qmrpack/incl/ ----------------------------------------------------------- convert.awk convert.sed d2s.sed filelist local.mak z2c.sed z2d.sed ----------------------------------------------------------- path: /netlib/linalg/qmrpack/libs/ ----------------------------------------------------------- Makefile blas/ deis/ filelist lapk/ linp/ misc/ seis/ ----------------------------------------------------------- path: /netlib/linalg/qmrpack/libs/blas/ ----------------------------------------------------------- Makefile caxpy.f dasum.f daxpy.f dcabs1.f dcopy.f ddot.f dnrm2.f drot.f drotg.f dscal.f dswap.f dznrm2.f filelist zaxpy.f zcopy.f zdotc.f zdotu.f zdrot.f zrotg.f zscal.f zswap.f ----------------------------------------------------------- path: /netlib/linalg/qmrpack/libs/deis/ ----------------------------------------------------------- Makefile balanc.f cbal.f comqr.f filelist hqr.f ----------------------------------------------------------- path: /netlib/linalg/qmrpack/libs/lapk/ ----------------------------------------------------------- Makefile dlamch.f filelist lsame.f ----------------------------------------------------------- path: /netlib/linalg/qmrpack/libs/linp/ ----------------------------------------------------------- Makefile cqrdc.f cqrsl.f csvdc.f dqrdc.f dqrsl.f dsvdc.f filelist zqrdc.f zqrsl.f zsvdc.f ----------------------------------------------------------- path: /netlib/linalg/qmrpack/libs/misc/ ----------------------------------------------------------- Makefile daxpby.f dhpsrt.f drandn.f dznrm1.f filelist zaxpby.f zrandn.f ----------------------------------------------------------- path: /netlib/linalg/qmrpack/libs/seis/ ----------------------------------------------------------- Makefile balanc.f cbal.f comqr.f filelist hqr.f ----------------------------------------------------------- for SparseDynamics is a sparse matrix algorithm path: /netlib/linalg/sparsdyn/ ----------------------------------------------------------- Makefile README ash85 cdefine.h dir.c display.c dump.c dwt_59 fdefine.h fortran-1.3.1 global.h ibm32 icon.h instructions io.c m1.F m2.F m2a.F m3.F m4.F main.F mark.c marko.F mattool.c mattool.h mback.F proc.c read.F store.F will199 will57 ----------------------------------------------------------- path: /netlib/linalg/sqr/ ----------------------------------------------------------- README amalg.m cne.m csne.m description.ps qls.m sqr.m sqrA.m sqrB.m ----------------------------------------------------------- # A collection of 44 parametrized test matrices, path: /netlib/linalg/testmats/ ----------------------------------------------------------- bandred.m cauchy.m chebspec.m chebvand.m chop.m chow.m circul.m clement.m comp.m compan.m condex.m cycol.m dingdong.m dorr.m dramadah.m fiedler.m forsythe.m frank.m fv.m gallery.m gear.m gfpp.m hadamard.m hanowa.m hilb.m house.m invol.m ipjfact.m jordan.m kahan.m kms.m krylov.m lauchli.m lehmer.m lotkin.m matrix.m minij.m moler.m ohess.m orthog.m pascal.m pei.m qmult.m rando.m randsvd.m riemann.m rq.m see.m seqa.m seqcheb.m seqm.m show.m skew.m sparse.m sparsify.m sub.m symm.m tridiag.m triw.m vand.m wathen.m wilk.m ----------------------------------------------------------- title Unsymmetric-pattern MultiFrontal Package path: /netlib/linalg/umfpack2/ ----------------------------------------------------------- UMFPACK2/ ----------------------------------------------------------- path: /netlib/linalg/umfpack2/UMFPACK2/ ----------------------------------------------------------- Makefile README dmain.f dmain.out0 in smain.f smain.out0 umd2co.f umd2er.f umd2f0.f umd2f1.f umd2f2.f umd2fa.f umd2fb.f umd2fg.f umd2in.f umd2lt.f umd2of.f umd2p1.f umd2p2.f umd2r0.f umd2r2.f umd2ra.f umd2rf.f umd2rg.f umd2s2.f umd2sl.f umd2so.f umd2su.f umd2ut.f ums2co.f ums2er.f ums2f0.f ums2f1.f ums2f2.f ums2fa.f ums2fb.f ums2fg.f ums2in.f ums2lt.f ums2of.f ums2p1.f ums2p2.f ums2r0.f ums2r2.f ums2ra.f ums2rf.f ums2rg.f ums2s2.f ums2sl.f ums2so.f ums2su.f ums2ut.f ----------------------------------------------------------- for linear equations and linear least squares path: /netlib/linpack/ ----------------------------------------------------------- # Netlib Index for LINPACK # # NOTE: # 1. Entries are arranged in alphabetical order by the real routine # name. # (If you are looking for a specific complex Hermitian routine, you # will find it listed with its real symmetric equivalent.) # 2. Specifications for pairs of real and complex routines have been # merged. In a few cases, specifications of three routines have been # merged, one for real symmetric, one for complex symmetric, and one # for complex Hermitian matrices. # 3. Specifications are given only for single precision routines. To # adapt them for the double precision version of the software, simply # interpret REAL as DOUBLE PRECISION and COMPLEX and COMPLEX*16 (or # DOUBLE COMPLEX). .depend cmach.f comment conferenceInfo.txt dcabs1.f dependencies dmach.f error index.bak makefile makefile2 makesun readme for README file for LINPACK chk/ for test drivers for LINPACK rm schdc.f gams D2b1b for computes the Cholesky decomposition of a positive definite matrix, a pivoting option allows the user to estimate the condition of a positive definite matrix or determine the rank of a positive semidefinite matrix prec single dchdc.f gams D2b1b for computes the Cholesky decomposition of a positive definite matrix, a pivoting option allows the user to estimate the condition of a positive definite matrix or determine the rank of a positive semidefinite matrix prec double cchdc.f gams D2d1b for computes the Cholesky decomposition of a positive definite matrix, a pivoting option allows the user to estimate the condition of a positive definite matrix or determine the rank of a positive semidefinite matrix prec complex smach.f zchdc.f gams D2d1b for computes the Cholesky decomposition of a positive definite matrix, a pivoting option allows the user to estimate the condition of a positive definite matrix or determine the rank of a positive semidefinite matrix prec doublecomplex schdd.f gams D7b for downdates an augmented Cholesky decomposition or the triangular factor of an augmented QR decomposition prec single dchdd.f gams D7b for downdates an augmented Cholesky decomposition or the triangular factor of an augmented QR decomposition prec double cchdd.f gams D7b for downdates an augmented Cholesky decomposition or the triangular factor of an augmented QR decomposition prec complex zchdd.f gams D7b for downdates an augmented Cholesky decomposition or the triangular factor of an augmented QR decomposition prec doublecomplex schex.f gams D7b for updates the Cholesky factorization prec single dchex.f gams D7b for updates the Cholesky factorization prec double cchex.f gams D7b for updates the Cholesky factorization prec complex zchex.f gams D7b for updates the Cholesky factorization prec doublecomplex schud.f gams D7b for updates an augmented Cholesky decomposition or the triangular part of an augmented QR decomposition prec single dchud.f gams D7b for updates an augmented Cholesky decomposition or the triangular part of an augmented QR decomposition prec double cchud.f gams D7b for updates an augmented Cholesky decomposition or the triangular part of an augmented QR decomposition prec complex zchud.f gams D7b for updates an augmented Cholesky decomposition or the triangular part of an augmented QR decomposition prec doublecomplex sgbco.f gams D2a2 for factors a real band matrix by Gaussian elimination and estimates the condition number of the matrix prec single dgbco.f gams D2a2 for factors a real band matrix by Gaussian elimination and estimates the condition number of the matrix prec double cgbco.f gams D2c2 for factors a complex band matrix by Gaussian elimination and estimates the condition number of the matrix prec complex zgbco.f gams D2c2 for factors a complex band matrix by Gaussian elimination and estimates the condition number of the matrix prec doublecomplex sgbdi.f gams D3a2 for computes the determinant of a band matrix using the factors computed by (linpack/sgbco) or (linpack/sgbfa), if the inverse is needed use (linpack/sgbsl) n times prec single dgbdi.f gams D3a2 for computes the determinant of a band matrix using the factors computed by (linpack/dgbco) or (linpack/dgbfa), if the inverse is needed use (linpack/dgbsl) n times prec double cgbdi.f gams D3c2 for computes the determinant of a band matrix using the factors computed by (linpack/cgbco) or (linpack/cgbfa), if the inverse is needed use (linpack/cgbsl) n times prec complex zgbdi.f gams D3c2 for computes the determinant of a band matrix using the factors computed by (linpack/zgbco) or (linpack/zgbfa), if the inverse is needed use (linpack/zgbsl) n times prec doublecomplex sgbfa.f gams D2a2 for factors a band matrix by elimination prec single dgbfa.f gams D2a2 for factors a band matrix by elimination prec double cgbfa.f gams D2c2 for factors a band matrix by elimination prec complex zgbfa.f gams D2c2 for factors a band matrix by elimination prec doublecomplex sgbsl.f gams D2a2 for solves the real band system Ax = b or trans(A)x = b using the factors computed by (linpack/sgbco) or (linpack/sgbfa) prec single dgbsl.f gams D2a2 for solves the real band system Ax = b or trans(A)x = b using the factors computed by (linpack/dgbco) or (linpack/dgbfa) prec double cgbsl.f gams D2c2 for solves the complex band system Ax = b or trans(A)x = b using the factors computed by (linpack/cgbco) or (linpack/cgbfa) prec complex zgbsl.f gams D2c2 for solves the complex band system Ax = b or trans(A)x = b using the factors computed by (linpack/zgbco) or (linpack/zgbfa) prec doublecomplex sgeco.f gams D2a1 for factors a matrix by Gaussian elimination and estimates the condition number of the matrix prec single dgeco.f gams D2a1 for factors a matrix by Gaussian elimination and estimates the condition number of the matrix prec double cgeco.f gams D2c1 for factors a matrix by Gaussian elimination and estimates the condition number of the matrix prec complex zgeco.f gams D2c1 for factors a matrix by Gaussian elimination and estimates the condition number of the matrix prec doublecomplex sgedi.f gams D3a1, D2a1 for computes the determinant and inverse of a matrix using the factors computed by (linpack/sgeco) or (linpack/sgefa) prec single dgedi.f gams D3a1, D2a1 for computes the determinant and inverse of a matrix using the factors computed by (linpack/dgeco) or (linpack/dgefa) prec double cgedi.f gams D2c1, D3c1 for computes the determinant and inverse of a matrix using the factors computed by (linpack/cgeco) or (linpack/cgefa) prec complex zgedi.f gams D2c1, D3c1 for computes the determinant and inverse of a matrix using the factors computed by (linpack/zgeco) or (linpack/zgefa) prec doublecomplex sgefa.f gams D2a1 for factors a real matrix by Gaussian elimination prec single dgefa.f gams D2a1 for factors a real matrix by Gaussian elimination prec double cgefa.f gams D2c1 for factors a complex matrix by Gaussian elimination prec complex zgefa.f gams D2c1 for factors a complex matrix by Gaussian elimination prec doublecomplex sgesl.f gams D2a1 for solves the real system Ax = b or trans(A)x = b using the factors computed by (linpack/sgeco) or (linpack/sgefa) prec single dgesl.f gams D2a1 for solves the real system Ax = b or trans(A)x = b using the factors computed by (linpack/dgeco) or (linpack/dgefa) prec double cgesl.f gams D2c1 for solves the complex system Ax = b or trans(A)x = b using the factors computed by (linpack/cgeco) or (linpack/cgefa) prec complex zgesl.f gams D2c1 for solves the complex system Ax = b or trans(A)x = b using the factors computed by (linpack/zgeco) or (linpack/zgefa) prec doublecomplex sgtsl.f gams D2a2a for given a general tridiagonal matrix and a right hand side will find the solution prec single dgtsl.f gams D2a2a for given a general tridiagonal matrix and a right hand side will find the solution prec double cgtsl.f gams D2c2a for given a general tridiagonal matrix and a right hand side will find the solution prec complex zgtsl.f gams D2c2a for given a general tridiagonal matrix and a right hand side will find the solution prec doublecomplex spbco.f gams D2b2 for factors a real symmetric positive definite matrix stored in band form and estimates the condition of the matrix prec single dpbco.f gams D2b2 for factors a real symmetric positive definite matrix stored in band form and estimates the condition of the matrix prec double cpbco.f gams D2d2 for factors a complex symmetric positive definite matrix stored in band form and estimates the condition of the matrix prec complex zmach.f zpbco.f gams D2d2 for factors a complex symmetric positive definite matrix stored in band form and estimates the condition of the matrix prec doublecomplex spbdi.f gams D3b2 for computes the determinant of a real symmetric positive definite band matrix using the factors computed by (linpack/spbco) or (linpack/spbfa), if the inverse is needed use (linpack/spbsl) n times prec single dpbdi.f gams D3b2 for computes the determinant of a real symmetric positive definite band matrix using the factors computed by (linpack/dpbco) or (linpack/dpbfa), if the inverse is needed use (linpack/dpbsl) n times prec double cpbdi.f gams D3d2 for computes the determinant of a complex symmetric positive definite band matrix using the factors computed by (linpack/cpbco) or (linpack/cpbfa), if the inverse is needed use (linpack/cpbsl) n times prec complex zpbdi.f gams D3d2 for computes the determinant of a complex symmetric positive definite band matrix using the factors computed by (linpack/zpbco) or (linpack/zpbfa), if the inverse is needed use (linpack/zpbsl) n times prec doublecomplex spbfa.f gams D2b2 for factors a real symmetric positive definite matrix stored in band form prec single dpbfa.f gams D2b2 for factors a real symmetric positive definite matrix stored in band form prec double cpbfa.f gams D2d2 for factors a complex symmetric positive definite matrix stored in band form prec complex zpbfa.f gams D2d2 for factors a complex symmetric positive definite matrix stored in band form prec doublecomplex spbsl.f gams D2b2 for solves the real symmetric positive definite band system Ax = b using the factors computed by (linpack/spbco) or (linpack/spbfa) prec single dpbsl.f gams D2b2 for solves the real symmetric positive definite band system Ax = b using the factors computed by (linpack/dpbco) or (linpack/dpbfa) prec double cpbsl.f gams D2d2 for solves the complex symmetric positive definite band system Ax = b using the factors computed by (linpack/cpbco) or (linpack/cpbfa) prec complex zpbsl.f gams D2d2 for solves the complex symmetric positive definite band system Ax = b using the factors computed by (linpack/zpbco) or (linpack/zpbfa) prec doublecomplex spoco.f gams D2b1b for factors a real symmetric positive definite matrix and estimates the condition number of the matrix prec single dpoco.f gams D2b1b for factors a real symmetric positive definite matrix and estimates the condition number of the matrix prec double cpoco.f gams D2d1b for factors a complex symmetric positive definite matrix and estimates the condition number of the matrix prec complex zpoco.f gams D2d1b for factors a complex symmetric positive definite matrix and estimates the condition number of the matrix prec doublecomplex spodi.f gams D2b1b,D3b1b for computes the determinant and inverse of a certain real symmetric positive definite matrix using the factors computed by (linpack/spoco), (linpack/spofa) or (linpack/sqrdc) prec single dpodi.f gams D2b1b,D3b1b for computes the determinant and inverse of a certain real symmetric positive definite matrix using the factors computed by (linpack/dpoco), (linpack/dpofa) or (linpack/dqrdc) prec double cpodi.f gams D2d1b, D3d1b for computes the determinant and inverse of a certain complex symmetric positive definite matrix using the factors computed by (linpack/cpoco), (linpack/cpofa) or (linpack/cqrdc) prec complex zpodi.f gams D2d1b, D3d1b for computes the determinant and inverse of a certain complex symmetric positive definite matrix using the factors computed by (linpack/zpoco), (linpack/zpofa) or (linpack/zqrdc) prec doublecomplex spofa.f gams D2b1b for factors a real symmetric positive definite matrix prec single dpofa.f gams D2b1b for factors a real symmetric positive definite matrix prec double cpofa.f gams D2d1b for factors a complex symmetric positive definite matrix prec complex zpofa.f gams D2d1b for factors a complex symmetric positive definite matrix prec doublecomplex sposl.f gams D2b1b for solves the real symmetric positive definite system Ax = b using the factors computed by (linpack/spoco) or (linpack/spofa) prec single dposl.f gams D2b1b for solves the real symmetric positive definite system Ax = b using the factors computed by (linpack/dpoco) or (linpack/dpofa) prec double cposl.f gams D2d1b for solves the complex symmetric positive definite system Ax = b using the factors computed by (linpack/cpoco) or (linpack/cpofa) prec complex zposl.f gams D2d1b for solves the complex symmetric positive definite system Ax = b using the factors computed by (linpack/zpoco) or (linpack/zpofa) prec doublecomplex sppco.f gams D2b1b for factors a real symmetric positive definite matrix stored in packed form and estimates the condition number of the matrix prec single dppco.f gams D2b1b for factors a real symmetric positive definite matrix stored in packed form and estimates the condition number of the matrix prec double cppco.f gams D2d1b for factors a complex symmetric positive definite matrix stored in packed form and estimates the condition number of the matrix prec complex zppco.f gams D2d1b for factors a complex symmetric positive definite matrix stored in packed form and estimates the condition number of the matrix prec doublecomplex sppdi.f gams D2b1b,D3b1b for computes the determinant and inverse of a real symmetric positive definite matrix using the factors computed by (linpack/sppco) or (linpack/sppfa) prec single dppdi.f gams D2b1b,D3b1b for computes the determinant and inverse of a real symmetric positive definite matrix using the factors computed by (linpack/dppco) or (linpack/dppfa) prec double cppdi.f gams D2d1b, D3d1b for computes the determinant and inverse of a complex symmetric positive definite matrix using the factors computed by (linpack/cppco) or (linpack/cppfa) prec complex zppdi.f gams D2d1b, D3d1b for computes the determinant and inverse of a complex symmetric positive definite matrix using the factors computed by (linpack/zppco) or (linpack/zppfa) prec doublecomplex sppfa.f gams D2b1b for factors a real symmetric positive definite matrix stored in packed form prec single dppfa.f gams D2b1b for factors a real symmetric positive definite matrix stored in packed form prec double cppfa.f gams D2d1b for factors a complex symmetric positive definite matrix stored in packed form prec complex zppfa.f gams D2d1b for factors a complex symmetric positive definite matrix stored in packed form prec doublecomplex sppsl.f gams D2b1b for solves the real symmetric positive definite system Ax = b using the factors computed by (linpack/sppco) or (linpack/sppfa) prec single dppsl.f gams D2b1b for solves the real symmetric positive definite system Ax = b using the factors computed by (linpack/dppco) or (linpack/dppfa) prec double cppsl.f gams D2d1b for solves the complex symmetric positive definite system Ax = b using the factors computed by (linpack/cppco) or (linpack/cppfa) prec complex zppsl.f gams D2d1b for solves the complex symmetric positive definite system Ax = b using the factors computed by (linpack/zppco) or (linpack/zppfa) prec doublecomplex sptsl.f gams D2b2a for given a positive definite tridiagonal matrix and a right hand side will find the solution prec single dptsl.f gams D2b2a for given a positive definite tridiagonal matrix and a right hand side will find the solution prec double cptsl.f gams D2d2a for given a positive definite tridiagonal matrix and a right hand side will find the solution prec complex zptsl.f gams D2d2a for given a positive definite tridiagonal matrix and a right hand side will find the solution prec doublecomplex sqrdc.f gams D5 for uses Householder transformations to compute the QR factorization, column pivoting based on the 2-norms of the reduced columns may be performed at the user's option prec single dqrdc.f gams D5 for uses Householder transformations to compute the QR factorization, column pivoting based on the 2-norms of the reduced columns may be performed at the user's option prec double cqrdc.f gams D5 for uses Householder transformations to compute the QR factorization, column pivoting based on the 2-norms of the reduced columns may be performed at the user's option prec complex zqrdc.f gams D5 for uses Householder transformations to compute the QR factorization, column pivoting based on the 2-norms of the reduced columns may be performed at the user's option prec doublecomplex sqrsl.f gams D2a1, D9a1 for applies the output of (linpack/sqrdc) to compute coordinate transformations, projections, and least squares solutions prec single dqrsl.f gams D2a1, D9a1 for applies the output of (linpack/dqrdc) to compute coordinate transformations, projections, and least squares solutions prec double cqrsl.f gams D9a1, D2c1 for applies the output of (linpack/cqrdc) to compute coordinate transformations, projections, and least squares solutions prec complex zqrsl.f gams D9a1, D2c1 for applies the output of (linpack/zqrdc) to compute coordinate transformations, projections, and least squares solutions prec doublecomplex ssico.f gams D2b1a for factors a real symmetric matrix by elimination with symmetric pivoting and estimates the condition number of the matrix prec single dsico.f gams D2b1a for factors a real symmetric matrix by elimination with symmetric pivoting and estimates the condition number of the matrix prec double csico.f gams D2c1 for factors a complex symmetric matrix by eliminatin with symmetric pivoting and estimates the condition number of the matrix prec complex zsico.f gams D2c1 for factors a complex symmetric matrix by eliminatin with symmetric pivoting and estimates the condition number of the matrix prec doublecomplex chico.f gams D2d1a for factors a complex Hermitian matrix by elimination with symmetric pivoting and estimates the condition number of the matrix prec complex zhico.f gams D2d1a for factors a complex Hermitian matrix by elimination with symmetric pivoting and estimates the condition number of the matrix prec doublecomplex ssidi.f gams D2b1a, D3b1a for computes the determinant, inertia and inverse of a real symmetric matrix using the factors from linpack/ssifa prec single dsidi.f gams D2b1a, D3b1a for computes the determinant, inertia and inverse of a real symmetric matrix using the factors from linpack/dsifa prec double csidi.f gams D2c1, D3c1 for computes the determinant, inertia and inverse of a complex symmetric matrix using the factors from linpack/csifa prec complex zsidi.f gams D2c1, D3c1 for computes the determinant, inertia and inverse of a complex symmetric matrix using the factors from linpack/zsifa prec doublecomplex chidi.f gams D2d1a, D3d1a for computes the determinant, inertia and inverse of a complex Hermitian matrix using the factors from linpack/chifa prec complex zhidi.f gams D2d1a, D3d1a for computes the determinant, inertia and inverse of a complex Hermitian matrix using the factors from linpack/zhifa) prec doublecomplex ssifa.f gams D2b1a for factors a real symmetric matrix by elimination with symmetric pivoting prec single dsifa.f gams D2b1a for factors a real symmetric matrix by elimination with symmetric pivoting prec double csifa.f gams D2c1 for factors a complex symmetric matrix by elimination with symmetric pivoting prec complex zsifa.f gams D2c1 for factors a complex symmetric matrix by elimination with symmetric pivoting prec doublecomplex chifa.f gams D2d1a for factors a complex Hermitian matrix by elimination with symmetric pivoting prec complex zhifa.f gams D2d1a for factors a complex Hermitian matrix by elimination with symmetric pivoting prec doublecomplex ssisl.f gams D2b1a for solves the real symmetric system Ax = b using the factors computed by linpack/ssifa prec single dsisl.f gams D2b1a for solves the real symmetric system Ax = b using the factors computed by linpack/dsifa prec double csisl.f gams D2c1 for solves the complex symmetric system Ax = b using the factors computed by linpack/csifa prec complex zsisl.f gams D2c1 for solves the complex symmetric system Ax = b using the factors computed by linpack/zsifa prec doublecomplex chisl.f gams D2d1a for solves the complex Hermitian system Ax = b using the factors computed by linpack/chifa prec complex zhisl.f gams D2d1a for solves the complex Hermitian system Ax = b using the factors computed by linpack/zhifa prec doublecomplex sspco.f gams D2b1a for factors a real symmetric matrix stored in packed form by elimination with symmetric pivoting and estimates the condition number of the matrix prec single dspco.f gams D2b1a for factors a real symmetric matrix stored in packed form by elimination with symmetric pivoting and estimates the condition number of the matrix prec double cspco.f gams D2c1 for factors a complex symmetric matrix stored in packed form by elimination with symmetric pivoting and estimates the condition number of the matrix prec complex zspco.f gams D2c1 for factors a complex symmetric matrix stored in packed form by elimination with symmetric pivoting and estimates the condition number of the matrix prec doublecomplex chpco.f gams D2d1a for factors a complex Hermitian matrix stored in packed form by elimination with symmetric pivoting and estimates the condition number of the matrix prec complex zhpco.f gams D2d1a for factors a complex Hermitian matrix stored in packed form by elimination with symmetric pivoting and estimates the condition number of the matrix prec doublecomplex sspdi.f gams D2b1a, D3b1a for computes the determinant, inertia and inverse of a real symmetric matrix using the factors from linpack/sspfa, where the matrix is stored in packed form prec single dspdi.f gams D2b1a, D3b1a for computes the determinant, inertia and inverse of a real symmetric matrix using the factors from linpack/dspfa, where the matrix is stored in packed form prec double cspdi.f gams D2c1, D3c1 for computes the determinant, inertia and inverse of a complex symmetric matrix using the factors from linpack/cspfa, where the matrix is stored in packed form prec complex zspdi.f gams D2c1, D3c1 for computes the determinant, inertia and inverse of a complex symmetric matrix using the factors from linpack/zspfa, where the matrix is stored in packed form prec doublecomplex chpdi.f gams D2d1a, D3d1a for computes the determinant, inertia and inverse of a complex Hermitian matrix using the factors from linpack/chpfa, where the matrix is stored in packed form prec complex zhpdi.f gams D2d1a, D3d1a for computes the determinant, inertia and inverse of a complex Hermitian matrix using the factors from linpack/zhpfa, where the matrix is stored in packed form prec doublecomplex sspfa.f gams D2b1a for factors a real symmetric matrix stored in packed form by elimination with symmetric pivoting prec single dspfa.f gams D2b1a for factors a real symmetric matrix stored in packed form by elimination with symmetric pivoting prec double cspfa.f gams D2c1 for factors a complex symmetric matrix stored in packed form by elimination with symmetric pivoting prec complex zspfa.f gams D2c1 for factors a complex symmetric matrix stored in packed form by elimination with symmetric pivoting prec doublecomplex chpfa.f gams D2d1a for factors a complex Hermitian matrix stored in packed form by elimination with symmetric pivoting prec complex zhpfa.f gams D2d1a for factors a complex Hermitian matrix stored in packed form by elimination with symmetric pivoting prec doublecomplex sspsl.f gams D2b1a for solves the real symmetric system Ax = b using the factors computed by linpack/sspfa prec single dspsl.f gams D2b1a for solves the real symmetric system Ax = b using the factors computed by linpack/dspfa prec double cspsl.f gams D2c1 for solves the complex symmetric system Ax = b using the factors computed by linpack/cspfa prec complex zspsl.f gams D2c1 for solves the complex symmetric system Ax = b using the factors computed by linpack/zspfa prec doublecomplex chpsl.f gams D2d1a for solves the complex Hermitian system Ax = b using the factors computed by linpack/chpfa prec complex zhpsl.f gams D2d1a for solves the complex Hermitian system Ax = b using the factors computed by linpack/zhpfa prec doublecomplex ssvdc.f gams D6 for reduces a real matrix to diagonal form by orthogonal/unitary transformations prec single dsvdc.f gams D6 for reduces a real matrix to diagonal form by orthogonal/unitary transformations prec double csvdc.f gams D6 for reduces a complex matrix to diagonal form by orthogonal/unitary transformations prec complex zsvdc.f gams D6 for reduces a complex matrix to diagonal form by orthogonal/unitary transformations prec doublecomplex strco.f gams D2a3 for estimates the condition number of a triangular matrix prec single dtrco.f gams D2a3 for estimates the condition number of a triangular matrix prec double ctrco.f gams D2c3 for estimates the condition number of a triangular matrix prec complex ztrco.f gams D2c3 for estimates the condition number of a triangular matrix prec doublecomplex strdi.f gams D2a3, D3a3 for computes the determinant and inverse of a triangular matrix prec single dtrdi.f gams D2a3, D3a3 for computes the determinant and inverse of a triangular matrix prec double ctrdi.f gams D2c3, D3c3 for computes the determinant and inverse of a triangular matrix prec complex ztrdi.f gams D2c3, D3c3 for computes the determinant and inverse of a triangular matrix prec doublecomplex strsl.f gams D2a3 for solves systems of the form Tx = b or trans(T)x = b where T is a triangular matrix of order n, trans(T) denotes the transpose of the matrix T prec single dtrsl.f gams D2a3 for solves systems of the form Tx = b or trans(T)x = b where T is a triangular matrix of order n, trans(T) denotes the transpose of the matrix T prec double ctrsl.f gams D2c3 for solves systems of the form Tx = b or trans(T)x = b where T is a triangular matrix of order n, trans(T) denotes the transpose of the matrix T prec complex ztrsl.f gams D2c3 for solves systems of the form Tx = b or trans(T)x = b where T is a triangular matrix of order n, trans(T) denotes the transpose of the matrix T prec doublecomplex ----------------------------------------------------------- for test drivers for LINPACK path: /netlib/linpack/chk/ ----------------------------------------------------------- #################################### # Index for linpack/chk # #################################### bandcray.f for matrix decomposition for banded positive definite matrices cch.f cex.f cg.f cgt.f ch.f cp.f cqr.f cs.f csv.f ct.f cud.f dch.f dex.f dg.f dgt.f dp.f dqr.f ds.f dsv.f dt.f dud.f foo.f foo.out index.bak sch.f sex.f sg.f sgt.f sp.f sqr.f ss.f ssv.f st.f sud.f zh.f for Test program to check the xHICO, xHIFA, xHISL, xHIDI, xHPCO, xHPFA, xHPSL, and xHPDI Hermitian routines (where x is only replaced by C or Z) prec complex, double complex zch.f for Test program to check the xCHDC routines prec single, double, complex, double complex zex.f for Test program to check the xCHEX routines prec single, double, complex, double complex zg.f for Test program to check the xGECO, xGEFA, xGESL, xGEDI, xGBCO, xGBFA, xGBSL, and xGBDI routines prec single, double, complex, double complex zgt.f for Test program to check the xGTSL and xPTSL routines prec single, double, complex, double complex zp.f for Test program to check the xPOCO, xPOFA, xPOSL, xPODI, xPPCO, xPPFA, xPPSL, xPPDI, xPBCO, xPBFA, xPBSL, and xPBDI routines prec single, double, complex, double complex zqr.f for Test program to check the xQRDC and xQRSL routines prec single, double, complex, double complex zs.f for Test program to check the xSICO, xSIFA, xSISL, xSIDI, xSPCO, xSPFA, xSPSL, and xSPDI routines prec single, double, complex, double complex zsv.f for Test program to check the xSVDC routines prec single, double, complex, double complex zt.f for Test program to check the xTRCO and xTRSL routines prec single, double, complex, double complex zud.f for Test program to check the xCHDD routines prec single, double, complex, double complex ----------------------------------------------------------- for linear programming test problems path: /netlib/lp/ ----------------------------------------------------------- data/ for a set of test problems in MPS format. generators/ for programs that generate linear programming test problems infeas/ for infeasible linear programming test problems ----------------------------------------------------------- for a set of test problems in MPS format. path: /netlib/lp/data/ ----------------------------------------------------------- # ===== LP/DATA index ===== # NOTE: The former "index from lp/data" is now "readme from lp/data". # It contains details on the following files. 25fv47 lang compressed MPS 80bau3b lang compressed MPS size 298 kB adlittle lang compressed MPS afiro lang compressed MPS agg lang compressed MPS agg2 lang compressed MPS agg3 lang compressed MPS ascii for list of ASCII characters that can appear in compressed MPS files bandm lang compressed MPS beaconfd lang compressed MPS blend lang compressed MPS bnl1 lang compressed MPS bnl2 lang compressed MPS boeing1 lang compressed MPS boeing2 lang compressed MPS bore3d lang compressed MPS brandy lang compressed MPS capri lang compressed MPS cycle lang compressed MPS czprob lang compressed MPS d2q06c lang compressed MPS size 258 kB d6cube lang compressed MPS degen2 lang compressed MPS degen3 lang compressed MPS dfl001 lang compressed MPS size 353 kB e226 lang compressed MPS emps.c for C source for EMPS (to uncompress the compressed MPS files) emps.f for Fortran source for EMPS (to uncompress the compressed MPS files) etamacro lang compressed MPS fffff800 lang compressed MPS finnis lang compressed MPS fit1d lang compressed MPS fit1p lang compressed MPS fit2d lang compressed MPS size 482 kB fit2p lang compressed MPS size 439 kB forplan lang compressed MPS ganges lang compressed MPS gfrd-pnc lang compressed MPS greenbea lang compressed MPS size 235 kB greenbeb lang compressed MPS size 235 kB grow15 lang compressed MPS grow22 lang compressed MPS grow7 lang compressed MPS israel lang compressed MPS kb2 lang compressed MPS kennington/ for Kennington test problems lotfi lang compressed MPS maros lang compressed MPS maros-r7 lang compressed MPS size 746 kB minos for notes on MINOS 5.0 on problems supplied by Michael Saunders modszk1 lang compressed MPS mpc.src for bundle of source for mpc, the program that compresses MPS files nesm lang compressed MPS perold lang compressed MPS pilot lang compressed MPS size 278 kB pilot.ja lang compressed MPS pilot.we lang compressed MPS pilot4 lang compressed MPS pilot87 lang compressed MPS size 514 kB pilotnov lang compressed MPS recipe lang compressed MPS sc105 lang compressed MPS sc205 lang compressed MPS sc50a lang compressed MPS sc50b lang compressed MPS scagr25 lang compressed MPS scagr7 lang compressed MPS scfxm1 lang compressed MPS scfxm2 lang compressed MPS scfxm3 lang compressed MPS scorpion lang compressed MPS scrs8 lang compressed MPS scsd1 lang compressed MPS scsd6 lang compressed MPS scsd8 lang compressed MPS sctap1 lang compressed MPS sctap2 lang compressed MPS sctap3 lang compressed MPS seba lang compressed MPS share1b lang compressed MPS share2b lang compressed MPS shell lang compressed MPS ship04l lang compressed MPS ship04s lang compressed MPS ship08l lang compressed MPS ship08s lang compressed MPS ship12l lang compressed MPS ship12s lang compressed MPS sierra lang compressed MPS stair lang compressed MPS standata lang compressed MPS standgub lang compressed MPS with GUB markers standmps lang compressed MPS stocfor1 lang compressed MPS stocfor2 lang compressed MPS stocfor3/ for bundle of Fortran source and data for problem STOCFOR3 size 227 kB stocfor3.old/ for previous version (prior to 4 Feb. 1993) of lp/data/stocfor3 truss/ for bundle of Fortran source and data for problem TRUSS tuff lang compressed MPS vtp.base lang compressed MPS wood1p lang compressed MPS size 328 kB woodw lang compressed MPS size 240 kB readme ----------------------------------------------------------- for Kennington test problems path: /netlib/lp/data/kennington/ ----------------------------------------------------------- # ===== LP/DATA/KENNINGTON index cre-a lang compressed MPS cre-b lang compressed MPS size 877 kB cre-c lang compressed MPS cre-d lang compressed MPS size 824 kB ken-07 lang compressed MPS ken-11 lang compressed MPS size 533 kB ken-13 lang compressed MPS size 1.0 MB ken-18 lang compressed MPS size 3.7 MB osa-07 lang compressed MPS size 472 kB osa-14 lang compressed MPS size 999 kB osa-30 lang compressed MPS size 1.8 MB osa-60 lang compressed MPS size 4.2 MB pds-02 lang compressed MPS pds-06 lang compressed MPS size 365 kB pds-10 lang compressed MPS size 628 kB pds-20 lang compressed MPS size 1.3 MB readme ----------------------------------------------------------- for previous version (prior to 4 Feb. 1993) of path: /netlib/lp/data/stocfor3.old/ ----------------------------------------------------------- common5.for core.mpc input.f paper.lis read.me std2mps.f stoch1.frs stoch2.frs stoch3.frs time7.frs ----------------------------------------------------------- for bundle of Fortran source and data for problem path: /netlib/lp/data/stocfor3/ ----------------------------------------------------------- common6.for core.mpc input.f paper.lis read.me std2mps.f stoch1.frs stoch2.frs stoch3.frs time7.frs ----------------------------------------------------------- for bundle of Fortran source and data for problem path: /netlib/lp/data/truss/ ----------------------------------------------------------- READ.ME loads.dat nodepos.dat numfrnds.dat truss.desc truss.f ----------------------------------------------------------- for programs that generate linear programming test path: /netlib/lp/generators/ ----------------------------------------------------------- # ===== LP/GENERATORS index ===== netgen/ lang Fortran for NETGEN (Darwin Klingman's generator for transportation networks and assignment problems, along with data for generating 50 problems). gnetgen/ lang Fortran for GNETGEN (Fred Glover's modification of NETGEN into a generator for generalized network flow problems, with input data by M. Ramamurti for 15 specific problem instances). ----------------------------------------------------------- lang Fortran path: /netlib/lp/generators/gnetgen/ ----------------------------------------------------------- README gnetgen.f seed/ ----------------------------------------------------------- path: /netlib/lp/generators/gnetgen/seed/ ----------------------------------------------------------- 2.13.000 2.13.050 2.13.100 2.25.000 2.25.050 2.25.100 2.50.000 2.50.050 2.50.100 4.26.000 4.26.050 4.26.100 6.39.000 6.39.050 6.39.100 ----------------------------------------------------------- lang Fortran path: /netlib/lp/generators/netgen/ ----------------------------------------------------------- Data/ README data0 netgen.f ----------------------------------------------------------- path: /netlib/lp/generators/netgen/Data/ ----------------------------------------------------------- netgn101 netgn102 netgn103 netgn104 netgn105 netgn106 netgn107 netgn108 netgn109 netgn110 netgn111 netgn112 netgn113 netgn114 netgn115 netgn116 netgn117 netgn118 netgn119 netgn120 netgn121 netgn122 netgn123 netgn124 netgn125 netgn126 netgn127 netgn128 netgn129 netgn130 netgn131 netgn132 netgn133 netgn134 netgn135 netgn136 netgn137 netgn138 netgn139 netgn140 netgn141 netgn142 netgn143 netgn144 netgn145 netgn146 netgn147 netgn148 netgn149 netgn150 ----------------------------------------------------------- for infeasible linear programming test problems path: /netlib/lp/infeas/ ----------------------------------------------------------- # ===== LP/INFEAS index ===== ceria3d lang compressed MPS chemcom lang compressed MPS cplex1 lang compressed MPS cplex2 lang compressed MPS forest6 lang compressed MPS galenet lang compressed MPS greenbea lang compressed MPS size 258 kB itest2 lang compressed MPS itest6 lang compressed MPS klein1 lang compressed MPS klein2 lang compressed MPS klein3 lang compressed MPS mondou2 lang compressed MPS qual lang compressed MPS reactor lang compressed MPS readme lang compressed MPS refinery lang compressed MPS vol1 lang compressed MPS woodinfe lang compressed MPS bgdbg1 bgetam bgindy size 446 kB bgprtr box1 ex72a ex73a gosh size 622 kB gran pang pilot4i ----------------------------------------------------------- for information on high performance computers path: /netlib/machines/ ----------------------------------------------------------- abs.tex abstract.tex abstract2.tex begin.tex cover.tex readme for overview of machines alliant.tex amdahl.tex ametek.tex amt.tex ardent.tex bbn.tex cdc190.tex cdc205.tex convex.tex cray1.tex cray2.tex cray3.tex crayea.tex crayxmp.tex crayymp.tex culler.tex cyberplus.tex cydrome.tex elxsi.tex encore.tex eta10.tex flex.tex fps1.tex fps2.tex fps3.tex fps4.tex fpst.tex galaxy.tex goodyear.tex gould.tex hitachi.tex ibm3090.tex intel.tex ip1.tex isis.tex ksr.tex loral.tex machines.tex meiko.tex multiflow.tex myrias.tex nas.tex ncube.tex nec.tex prevec.tex printex ps2000.tex saxpy.tex scs.tex sequent.tex sequent2.tex sgi.tex star.tex startech.tex stellar.tex supertek.tex tmc.tex toc.tex unisys.tex ----------------------------------------------------------- for MasPar-specific libraries and tools path: /netlib/maspar/ ----------------------------------------------------------- f90/ for purely Fortran version of library by Petter Bjorstad, Erik Boman, Jeremy Cook, Hans Munthe-Kaas, Tor Sorevik lang Fortran90 mpl/ for mixed MPL and Fortran version of library (sometimes faster than maspar/f90) by Petter Bjorstad, Erik Boman, Jeremy Cook, Hans Munthe-Kaas, Tor Sorevik lang Fortran90, MPL readme ----------------------------------------------------------- for purely Fortran version of library path: /netlib/maspar/f90/ ----------------------------------------------------------- dblas/ for purely Fortran version of BLAS library prec double real by Petter Bjorstad, Erik Boman, Jeremy Cook, Hans Munthe-Kaas, Tor Sorevik lang Fortran90 sblas/ for purely Fortran version of BLAS library prec single real by Petter Bjorstad, Erik Boman, Jeremy Cook, Hans Munthe-Kaas, Tor Sorevik lang Fortran90 readme ----------------------------------------------------------- for purely Fortran version of BLAS library path: /netlib/maspar/f90/dblas/ ----------------------------------------------------------- .depend dasum.f for sum of absolute values prec double real gams D1a3a daxpy.f for y = a*x + y prec double real gams D1a7 dcopy.f for copy x into y prec double real gams D1a5 ddot.f for dot product prec double real gams D1a4 dgbmv.f for matrix vector multiply prec double real gams D1b4 dgemm.f for matrix matrix multiply prec double real gams D1b6 dgemv.f for matrix vector multiply prec double real gams D1b4 dger.f for rank one update to a matrix prec double real gams D1b5 dnrm2.f for Euclidean norm prec double real gams D1a3b drot.f for apply Givens rotation prec double real gams D1a8 drotg.f for setup Givens rotation prec double real gams D1b10 dsbmv.f for matrix vector multiply prec double real gams D1b4 dscal.f for x = a*x prec double real gams D1a6 dspmv.f for matrix vector multiply prec double real gams D1b4 dspr.f for rank one update to a matrix prec double real gams D1b5 dspr2.f for rank two update to a matrix prec double real gams D1b5 dswap.f for swap x and y prec double real gams D1a5 dsymm.f for matrix matrix multiply prec double real gams D1b6 dsymv.f for matrix vector multiply prec double real gams D1b4 dsyr.f for rank one update to a matrix prec double real gams D1b5 dsyr2.f for rank two update to a matrix prec double real gams D1b5 dsyr2k.f for rank-2k update to a matrix prec double real gams D1b5 dsyrk.f for rank-k update to a matrix prec double real gams D1b5 dtbmv.f for matrix vector multiply prec double real gams D1b4 dtbsv.f for solving certain triangular matrix problems prec double real gams D2a3,D2a2 dtpmv.f for matrix vector multiply prec double real gams D1b4 dtpsv.f for solving certain triangular matrix problems prec double real gams D2a3 dtrmm.f for matrix matrix multiply prec double real gams D1b6 dtrmv.f for matrix vector multiply prec double real gams D1b4 dtrsm.f for solving triangular matrix with many right--hand-sides prec double real gams D2a3 dtrsv.f for solving certain triangular matrix problems prec double real gams D2a3 idamax.f for index of max abs value prec double real gams D1a2,D1a3c,N5a degad.f dfillo.f dpacku.f lsame.f xerbla.f makefile readme ----------------------------------------------------------- for purely Fortran version of BLAS library path: /netlib/maspar/f90/sblas/ ----------------------------------------------------------- .depend isamax.f for index of max abs value prec single real gams D1a2,D1a3c,N5a sasum.f for sum of absolute values prec single real gams D1a3a saxpy.f for y = a*x + y prec single real gams D1a7 scopy.f for copy x into y prec single real gams D1a5 sdot.f for dot product prec single real gams D1a4 sgbmv.f for matrix vector multiply prec single real gams D1b4 sgemm.f for matrix matrix multiply prec single real gams D1b6 sgemv.f for matrix vector multiply prec single real gams D1b4 sger.f for rank one update to a matrix prec single real gams D1b5 snrm2.f for Euclidean norm prec single real gams D1a3b srot.f for apply Givens rotation prec single real gams D1a8 srotg.f for setup Givens rotation prec single real gams D1b10 ssbmv.f for matrix vector multiply prec single real gams D1b4 sscal.f for x = a*x prec single real gams D1a6 sspmv.f for matrix vector multiply prec single real gams D1b4 sspr.f for rank one update to a matrix prec single real gams D1b5 sspr2.f for rank two update to a matrix prec single real gams D1b5 sswap.f for swap x and y prec single real gams D1a5 ssymm.f for matrix matrix multiply prec single real gams D1b6 ssymv.f for matrix vector multiply prec single real gams D1b4 ssyr.f for rank one update to a matrix prec single real gams D1b5 ssyr2.f for rank two update to a matrix prec single real gams D1b5 ssyr2k.f for rank-2k update to a matrix prec single real gams D1b5 ssyrk.f for rank-k update to a matrix prec single real gams D1b5 stbmv.f for matrix vector multiply prec single real gams D1b4 stbsv.f for solving certain triangular matrix problems prec single real gams D2a3,D2a2 stpmv.f for matrix vector multiply prec single real gams D1b4 stpsv.f for solving certain triangular matrix problems prec single real gams D2a3 strmm.f for matrix matrix multiply prec single real gams D1b6 strmv.f for matrix vector multiply prec single real gams D1b4 strsm.f for solving triangular matrix with many right--hand-sides prec single real gams D2a3 strsv.f for solving certain triangular matrix problems prec single real gams D2a3 lsame.f segad.f sfillo.f spacku.f xerbla.f makefile readme ----------------------------------------------------------- for mixed MPL and Fortran version of library path: /netlib/maspar/mpl/ ----------------------------------------------------------- dblas/ for Mixed Fortran90/MPL version of BLAS library prec double real by Petter Bjorstad, Erik Boman, Jeremy Cook, Hans Munthe-Kaas, Tor Sorevik lang Fortran90 sblas/ for Mixed Fortran90/MPL version of BLAS library prec single real by Petter Bjorstad, Erik Boman, Jeremy Cook, Hans Munthe-Kaas, Tor Sorevik lang Fortran90 p3pack/ for Permutation of Data prec double real int by Hans Munthe-Kaas lang Fortran90, MPL spfft/ for Fast Fourier Transforms prec double real by Hans Munthe-Kaas lang Fortran90, MPL readme ----------------------------------------------------------- for Mixed Fortran90/MPL version of BLAS library path: /netlib/maspar/mpl/dblas/ ----------------------------------------------------------- .depend dasum.f for sum of absolute values prec double real gams D1a3a daxpy.f for y = a*x + y prec double real gams D1a7 dcopy.f for copy x into y prec double real gams D1a5 ddot.f for dot product prec double real gams D1a4 dgbmv.f for matrix vector multiply prec double real gams D1b4 dgemm.f for matrix matrix multiply prec double real gams D1b6 dgemv.f for matrix vector multiply prec double real gams D1b4 dger.f for rank one update to a matrix prec double real gams D1b5 dnrm2.f for Euclidean norm prec double real gams D1a3b drot.f for apply Givens rotation prec double real gams D1a8 drotg.f for setup Givens rotation prec double real gams D1b10 dsbmv.f for matrix vector multiply prec double real gams D1b4 dscal.f for x = a*x prec double real gams D1a6 dspmv.f for matrix vector multiply prec double real gams D1b4 dspr.f for rank one update to a matrix prec double real gams D1b5 dspr2.f for rank two update to a matrix prec double real gams D1b5 dswap.f for swap x and y prec double real gams D1a5 dsymm.f for matrix matrix multiply prec double real gams D1b6 dsymv.f for matrix vector multiply prec double real gams D1b4 dsyr.f for rank one update to a matrix prec double real gams D1b5 dsyr2.f for rank two update to a matrix prec double real gams D1b5 dsyr2k.f for rank-2k update to a matrix prec double real gams D1b5 dsyrk.f for rank-k update to a matrix prec double real gams D1b5 dtbmv.f for matrix vector multiply prec double real gams D1b4 dtbsv.f for solving certain triangular matrix problems prec double real gams D2a3,D2a2 dtpmv.f for matrix vector multiply prec double real gams D1b4 dtpsv.f for solving certain triangular matrix problems prec double real gams D2a3 dtrmm.f for matrix matrix multiply prec double real gams D1b6 dtrmv.f for matrix vector multiply prec double real gams D1b4 dtrsm.f for solving triangular matrix with many right--hand-sides prec double real gams D2a3 dtrsv.f for solving certain triangular matrix problems prec double real gams D2a3 idamax.f for index of max abs value prec double real gams D1a2,D1a3c,N5a degad.f dfillo.f dpacku.f lsame.f xerbla.f MPL_DAXPY.m MPL_DCOPY.m MPL_DGEMM1.m MPL_DGEMV1.m MPL_DGEMV2.m MPL_DGER.m MPL_DSCAL.m MPL_DSWAP.m MPL_DTRSM_LON.m MPL_DTRSM_UPN.m MPL_DTRSV_LO.m MPL_DTRSV_UP.m MPL_IDAMAX.m mpl_daxpy.m mpl_dcopy.m mpl_dgemm1.m mpl_dger.m mpl_dgemv1.m mpl_dgemv2.m mpl_dlrsolve.m mpl_dlssolve.m mpl_dscal.m mpl_dswap.m mpl_dtri_rln.m mplwrap mpl_dtri_run.m mpl_dtri_sln.m mpl_dtri_sun.m mpl_dtrsm_lon.m mpl_dtrsm_upn.m mpl_dtrsv_lo.m mpl_dtrsv_up.m mpl_dursolve.m mpl_dussolve.m mpl_idamax.m mpl_rec_dmul.m mpl_rec_dps.m mpl_sq_dmul.m mpl_sq_dps.m mpl_blas.h makefile readme ----------------------------------------------------------- for Permutation of Data path: /netlib/maspar/mpl/p3pack/ ----------------------------------------------------------- .depend genutil.h hpftest.f makefile mpltest.m p3pack.doc p3pack.h p3pack.m p3wrap.m ----------------------------------------------------------- for Mixed Fortran90/MPL version of BLAS library path: /netlib/maspar/mpl/sblas/ ----------------------------------------------------------- .depend isamax.f for index of max abs value prec single real gams D1a2,D1a3c,N5a sasum.f for sum of absolute values prec single real gams D1a3a saxpy.f for y = a*x + y prec single real gams D1a7 scopy.f for copy x into y prec single real gams D1a5 sdot.f for dot product prec single real gams D1a4 sgbmv.f for matrix vector multiply prec single real gams D1b4 sgemm.f for matrix matrix multiply prec single real gams D1b6 sgemv.f for matrix vector multiply prec single real gams D1b4 sger.f for rank one update to a matrix prec single real gams D1b5 snrm2.f for Euclidean norm prec single real gams D1a3b srot.f for apply Givens rotation prec single real gams D1a8 srotg.f for setup Givens rotation prec single real gams D1b10 ssbmv.f for matrix vector multiply prec single real gams D1b4 sscal.f for x = a*x prec single real gams D1a6 sspmv.f for matrix vector multiply prec single real gams D1b4 sspr.f for rank one update to a matrix prec single real gams D1b5 sspr2.f for rank two update to a matrix prec single real gams D1b5 sswap.f for swap x and y prec single real gams D1a5 ssymm.f for matrix matrix multiply prec single real gams D1b6 ssymv.f for matrix vector multiply prec single real gams D1b4 ssyr.f for rank one update to a matrix prec single real gams D1b5 ssyr2.f for rank two update to a matrix prec single real gams D1b5 ssyr2k.f for rank-2k update to a matrix prec single real gams D1b5 ssyrk.f for rank-k update to a matrix prec single real gams D1b5 stbmv.f for matrix vector multiply prec single real gams D1b4 stbsv.f for solving certain triangular matrix problems prec single real gams D2a3,D2a2 stpmv.f for matrix vector multiply prec single real gams D1b4 stpsv.f for solving certain triangular matrix problems prec single real gams D2a3 strmm.f for matrix matrix multiply prec single real gams D1b6 strmv.f for matrix vector multiply prec single real gams D1b4 strsm.f for solving triangular matrix with many right--hand-sides prec single real gams D2a3 strsv.f for solving certain triangular matrix problems prec single real gams D2a3 lsame.f segad.f sfillo.f spacku.f xerbla.f MPL_ISAMAX.m MPL_SAXPY.m MPL_SCOPY.m MPL_SGEMM1.m MPL_SGEMV1.m MPL_SGEMV2.m MPL_SGER.m MPL_SSCAL.m MPL_SSWAP.m MPL_STRSM_LON.m MPL_STRSM_UPN.m MPL_STRSV_LO.m MPL_STRSV_UP.m mpl_isamax.m mpl_rec_smul.m mpl_rec_sps.m mpl_saxpy.m mpl_scopy.m mpl_sgemm1.m mpl_sgemv1.m mpl_sgemv2.m mpl_sger.m mpl_slrsolve.m mpl_slssolve.m mpl_sq_smul.m mpl_sq_sps.m mpl_sscal.m mpl_sswap.m mpl_stri_rln.m mpl_stri_run.m mpl_stri_sln.m mpl_stri_sun.m mpl_strsm_lon.m mpl_strsm_upn.m mpl_strsv_lo.m mpl_strsv_up.m mpl_sursolve.m mpl_sussolve.m makefile mpl_blas.h mplwrap readme ----------------------------------------------------------- for Fast Fourier Transforms path: /netlib/maspar/mpl/spfft/ ----------------------------------------------------------- .depend fftwrap.m for Fast Fourier Transform routines callable from Fortran prec single and double real (for complex transforms) spfft.m for Fast Fourier Transform routines from MPL prec single and double real (for complex transforms) mpltest.m for test programs in mpl for FFT's prec single and double (for complex transforms) hpftest.f for test program in Fortran for FFT's prec single and double real (for complex transforms) hpftest2.f for test program in Fortran for FFT's prec single and double real (for complex transforms) hpftest3.f for test program in Fortran for FFT's prec single and double real (for complex transforms) genutil.h makefile p3pack.h p3pack.m realtest.m spfft.doc spfft.h spfftOptim.h testcodes.doc ----------------------------------------------------------- for multidimensional scaling path: /netlib/mds/ ----------------------------------------------------------- cancor.f for canonical correlation analysis of 3 or more sets of variables by dcarroll@gandalf.rutgers.edu ref Proc.76th Amer.Psych.Assoc., 1968, 3:227-228 kind command ccm.f for categorical conjoint measurement by dcarroll@gandalf.rutgers.edu kind command hiclust.f for hierarchical clustering contact kruskal@research.att.com ref Psychometrika, 1967, 32:241-254 see another version in icicle kind command # Different from (though similar to) hiclust.f in icicle.shar below icicle/ for plotting the output of hierarchical clustering by kruskal@research.att.com ref Amer.Statistician, 1983, 37:162-168 kind shell archive, i.e., files combined by Unix command "bundle" # Files included: icicle.r ratfor function icicle.f fortran IV expansion (modified) hiclust.r ratfor command hiclust.f fortran IV expansion (modified) Different from (though similar to) mds/hiclust.f above icicle.data sample data and results idioscal.f for model more general than the INDSCAL model by dcarroll@gandalf.rutgers.edu ref Psychometrika, 1970, 35:283-319 kind command indclus/ for individual differences clustering (INDCLUS model) by dcarroll@gandalf.rutgers.edu ref Psychological Review, 1979, 86:87-123 kind shell archive, i.e., files combined by Unix command "bundle" # Files included: indclus.f fortran command indclus.data sample data and results indscal.f for individual differences scaling (INDSCAL model) by dcarroll@gandalf.rutgers.edu ref Psychometrika, 1970, 35:283-319 see sindscal.f kind command # sindscal.f is recommended instead of this for most uses indscals.f for individual differences scaling (INDSCAL model) by dcarroll@gandalf.rutgers.edu ref Psychometrika, 1970, 35:283-319 see sindscal.f kind command # sindscal.f is recommended instead of this for most uses kyst.f for multidimensional scaling by kruskal@research.att.com ref Psychometrika, 1964, 29:1-17 kind command see kyst2a_manual see kyst2a.f, mdscal.f # historical order: mdscal.f, kyst.f, kyst2a.f kyst2a.f for multidimensional scaling by kruskal@research.att.com ref Psychometrika, 1964, 29:1-17 kind command see kyst2a_manual see kyst.f, mdscal.f # historical order: mdscal.f, kyst.f, kyst2a.f kyst2a_manual.ps by chella@diepa.unipa.it contact kruskal@research.att.com kind text in PostScript form see mds/kyst2a_manual, mds/kyst2a_manual.BinHex # Also helpful in using kyst and mdscal kyst2a_manual.BinHex by chella@diepa.unipa.it contact kruskal@research.att.com kind text in Macintosh BinHex form see mds/kyst2a_manual, mds/kyst2a_manual.ps # Also helpful in using kyst and mdscal mapclus/ for fitting ADCLUS model by 2018001@rutvm1.rutgers.edu ref Psychometrika, 1980, 45:211-235 kind shell archive, i.e., files combined by Unix command "bundle" # Files included: mapclus.f fortran command mapclus.data sample data and results maxscal4.1.f for maximum likelihood multidimensional scaling by takane@takane2.psych.mcgill.ca ref Psychometrika, 1981, 46:389-405 kind command mdpref.f for multidimensional preference mapping by dcarroll@gandalf.rutgers.edu ref "Multidimensional Scaling", Seminar Press, 1972, 1:105-155 see mdprefs.f kind command mdprefs.f for multidimensional preference mapping by dcarroll@gandalf.rutgers.edu ref "Multidimensional Scaling", Seminar Press, 1972, 1:105-155 see mdpref.f kind command mdscal.f for multidimensional scaling by kruskal@research.att.com ref Psychometrika, 1964, 29:1-17 kind command see kyst2a_manual see kyst2a.f, kyst.f # historical order: mdscal.f, kyst.f, kyst2a.f monanova.f for monotone analysis of variance (MONANOVA model) by kruskal@research.att.com ref J.Roy.Stat.Soc.,Ser.B, 1965, 27:251-263 kind command nindscal.f for individual differences scaling (INDSCAL model) by dcarroll@gandalf.rutgers.edu ref Psychometrika, 1970, 35:283-319 see sindscal.f kind command # sindscal.f is recommended instead of this for most uses paramap.f for parametric mapping by dcarroll@gandalf.rutgers.edu ref "Multivariate Analysis", Academic Press, 1966, pp.561-592 kind command polyfac.f for polynomial factor analysis by dcarroll@gandalf.rutgers.edu ref Proc.77th Amer.Psych.Assoc., 1969, 4:103-104 kind command prefmap.f for preference mapping by dcarroll@gandalf.rutgers.edu ref "Multidimensional Scaling", Seminar Press, 1972, 1:105-155 see prefmap2.f kind command prefmap2.f for preference mapping by dcarroll@gandalf.rutgers.edu ref "Multidimensional Scaling", Seminar Press, 1972, 1:105-155 see prefmap.f kind command profit.f for application of nonlinear correlation to psychol and physical dimensions by dcarroll@gandalf.rutgers.edu ref American Psychologist, 1964, 19:540 kind command readme simules.f for simultaneous linear equation scaling by dcarroll@gandalf.rutgers.edu ref Proc.80th Amer.Psych.Assoc., 1972, 7:11-12 kind command sindscal.f for individual differences scaling (INDSCAL model) by pru@research.att.com ref Psychometrika, 1970, 35:283-319 kind command # this is recommended in place of indscal.f, indscals.f, ninscal.f addtree.pas for fitting additive trees to proximity data by jec34@columbia.edu ref Behavior Research Methods and Instrumentation, 1982, 14:353-54. Psychometrika, 1977, 42:319-345. see addtree_manual kind command lang Pascal addtree_manual by jec34@columbia.edu kind text in plain ascii form extree.pas for fitting extended tree model to proximity data by jec34@columbia.edu ref Psychometrika, 1986, 51:429-451. see extree_manual kind command lang Pascal extree_manual by jec34@columbia.edu kind text in plain ascii form ----------------------------------------------------------- for plotting the output of hierarchical clustering path: /netlib/mds/icicle/ ----------------------------------------------------------- hiclust.f hiclust.r icicle.data icicle.f icicle.r ----------------------------------------------------------- for individual differences clustering (INDCLUS path: /netlib/mds/indclus/ ----------------------------------------------------------- indclus.data indclus.f ----------------------------------------------------------- for fitting ADCLUS model path: /netlib/mds/mapclus/ ----------------------------------------------------------- mapclus.data mapclus.f ----------------------------------------------------------- for looking closely at functions path: /netlib/microscope/ ----------------------------------------------------------- main.f for multivariate function analysis package; studies an interpolation or approximation schemes continuity, interpolation, degree pltdmy.f for default plot package for the microscope package screen.f for machine-dependent display editing terminal handler for the microscope package scroll.f for portable dumb terminal handler for the microscope system, alternative to (microscope/screen) usrdmy.f for dummy routine, to be replaced by user to implement the USER commands helplc for one line command summaries for (microscope/*), called by (microscope/main) lc.f for more routines for (microscope/*) pos.f for routine to seek to line n, used in (microscope/*) usrlc.f for examples for (microscope/*) from manual manlc for users manual for (microscope/*), for terminal output size 270 kB # These manuals are (apparently) the same as MRC Tech. Rpt. 2701, by Alfeld and Harris, June 1984, University of Wisconsin-Madison. Ask for at most one of "manual" or "manlc". Try "helplc" first. manual for users manual for (microscope/*) with printer control characters size 327 kB # These manuals are (apparently) the same as MRC Tech. Rpt. 2701, by Alfeld and Harris, June 1984, University of Wisconsin-Madison. Ask for at most one of "manual" or "manlc". Try "helplc" first. supprt.f for computational core routines for (microscope/main) # So, a typical request to get a minimal version of MICROSCOPE would be: # mail research!netlib # send helplc from microscope # send main supprt lc pos pltdmy usrlc scroll from microscope Other/ ----------------------------------------------------------- path: /netlib/microscope/Other/ ----------------------------------------------------------- helpuc manuc pen07.f pen18.f pendmy.f pltlc.f pltuc.f uc.f usruc.f ----------------------------------------------------------- for nonlinear equations and nonlinear least squares path: /netlib/minpack/ ----------------------------------------------------------- .depend chkdrv.f covar.f dependencies dmchar.f errjac.f ex/ for test programs grdfcn.f hesfcn.f hybdrv.f hybipt.f hyjdrv.f ibmdpdr.f lhesfcn.f lmddrv.f lmdipt.f lmfdrv.f lmsdrv.f makefile objfcn.f ocpipt.f readme for overview of minpack chkder.f gams F3,G4c,K6d for check gradients for consistency with functions dogleg.f for determine combination of gauss-newton and gradient directions dpmpar.f for provide double precision machine parameters enorm.f for calculate euclidean norm of vector fdjac1.f for calculate difference approximation to jacobian (nonlinear equations) fdjac2.f for calculate difference approximation to jacobian (least squares) hybrd.f gams F2 for solve systems of nonlinear equations (approximate jacobian) hybrd1.f gams F2 for easy-to-use driver for (minpack/hybrd) hybrj.f gams F2 for solve systems of nonlinear equations (analytic jacobian) hybrj1.f gams F2 for easy-to-use driver for (minpack/hybrj) lmder.f gams K1b1a2 for solve nonlinear least squares problem (analytic jacobian) lmder1.f gams K1b1a2 for easy-to-use driver for (minpack/lmder) lmdif.f gams K1b1a1 for solve nonlinear least squares problem (approximate jacobian) lmdif1.f gams K1b1a1 for easy-to-use driver for (minpack/lmdif) lmpar.f for determine levenberg-marquardt parameter lmstr.f gams K1b1a2 for solve nonlinear least squares problem (storage conserving) lmstr1.f gams K1b1a2 for easy-to-use driver for (minpack/lmstr) qform.f for accumulate orthogonal matrix from qr factorization qrfac.f for compute qr factorization of rectangular matrix qrsolv.f for complete solution of least squares problem rwupdt.f for update qr factorization after row addition r1mpyq.f for apply orthogonal transformations from qr factorization r1updt.f for update qr factorization after rank-1 addition ssqfcn.f ssqjac.f ucodrv.f vecfcn.f vecjac.f ----------------------------------------------------------- for test programs path: /netlib/minpack/ex/ ----------------------------------------------------------- file01 for Function SPMPAR file02 for MINPACK-1 prec single file03 for MINPACK-1 documentation prec single # unfortunately, column 73 was lost at Argonne long ago file04 for Function DPMPAR file05 for MINPACK-1 file06 for MINPACK-1 documentation prec double # unfortunately, column 73 was lost at Argonne long ago file07 for SMCHAR test file08 for HYBRD test prec single file09 for HYBRJ test prec single file10 for LMDER test prec single file11 for LMSTR test prec single file12 for LMDIF test prec single file13 for CHKDER test prec single file14 for DMCHAR test file15 for HYBRD test prec double file16 for HYBRJ test prec double file17 for LMDER test prec double file18 for LMSTR test prec double file19 for LMDIF test prec double file20 for CHKDER test prec double file21 for HYBRD and HYBRJ data file22 for LMDER, LMSTR, and LMDIf data file23 for CHKDER data ----------------------------------------------------------- for various stuff collected over time path: /netlib/misc/ ----------------------------------------------------------- SEV/ add.to.index anllist.b anllist.b.ia anllist.b.ib anllist.b.ic anllist.b.ig axlbx2 bartels bartels.b beatson bell-prize-results bib.readme bib.warning biblio binary-lu bio-parallel bio.copyright bsmp.f c-standard conest cpc.index crawford.f cycred cycred-doc dcgc dec-blas difcor dmr dpmpar.c dqed.f eiginv fft.mail files ftpdiff gcvspl gemmw gmres/ goliath.f goliath.tex guptri hartley hssxev ibmblas3 iccg iccg-doc iccg-paper ickp/ for for checkpointing programs on the Intel iPSC/2 & iPSC/860 by James Plank, Princeton University gams z iqd.for iqtest.for jgraph.readme gams q jgraph/ for program to plot graphs in Postscript by Jim Plank, Princeton University gams q jobs lalqmr laops.f laops2.f lo lottery lsqr mach1 mach2 makefile map/ mfft mglab/ for tutorial 1d multigrid gams i1b1 contrib for a checklist for netlib contributors mpsimdoc multiprocess.ref nanet/ for the software for running the na-net. netlib-paper for The troff form of the paper describing netlib. netlib for The source and scripts for netlib. bitnet for a list of bitnet sites. fft.f for yet another fft subroutine, this one from Ferziger's text gams j1a2 machar for this program prints hardware-determined machine constants obtained by smchar, a subroutine due to w. j. cody. descriptions of the machine constants are given in the prologue comments of smchar. subprograms called smchar version Fri Oct 25 22:54:26 BST 1985 lang C by Tim Hopkins Computing Laboratory, University of Kent, Canterbury CT2 7NF Kent U.K. nielsen parti perlman positions qmr.index rainbow randnum-cray for vectorised random number generator for the CRAY X-MP. by Oscar Buneman, 10/16/86 gams l6a21 groups for list of people interested in na at varous centers. # Gene Golub, Stanford, 3/87 rolex rolex.b rolex.b.ig sdifcor sdifcor.doc sgefac sledge smchar.c sonest soviet_interval sparsdyn spline stree symmlq testmats to.dasher tql2.f trace/ trace2au_report/ trace2au_tools/ tred2v.f treeql treeqr treeqr.comments tstmach tymnet for list of tymnet numbers around the country. iqpack/ for - Fortran subroutines for the weights of interpolatory quadratures the package is an implementation of the method described in "Calculation of the Weights of Interpolatory Quadratures", J. Kautsky and S. Elhay, Numer Math 40 (1982) 407-422, by S. Elhay, Feb 1988. gams h2c lang fortran mus for A package for solving two-point BVPs Double precision version # Authors: R.M.M. Mattheij, G.W.M. Staarink. G.W.M. Staarink; Economisch Instituut; Thomas van Aquinostraat 6; 6525 GD Nijmegen; The Netherlands jet-lag-diet for Argonne's Anti-Jet-Lag Diet helps travelers adjust to new time zones. sleign for eigenvalues and eigenfunctions of regular and singular Sturm-Liouville boundary value problems. The package is a modification and extension of the code developed by Bailey, Gordon, and Shampine, described in ACM-TOMS 4(1978).(Burt Garbow, ANL, 11/29/88) gams i1b3 lang fortran mpsim/ # Portable (to most UNIX systems) message-passing simulator that supports both C and FORTRAN. Uses forks and pipes to support up to 8 to 16 processes on UNIX bsd 4.x, SYS V 3.x, DYNIX, Encore, Ultrix, Sun, XENIX, Tek UNIX, 3B2s. Simulates Intel iPSC/1 and iPSC/2 hypercubes and produces trace file of message events. Trace-file analyzers produces tabular or graphical summaries. (Encore and Sequent versions will utilize multiple processors.) Tom Dunigan, Oak Ridge Nat Lab, 2/89, dunigan@msr.epm.ornl.gov gams z dlamch.f for determines double precision machine parameters. gams r1 slamch.f for determines single precision machine parameters. gams r1 rktec.c for computes the truncation error coefficients, tecs, of a Runge-Kutta formula, or a pair of formulas, specified in an input file. Version 2.1 by Mike Hosea (na.hosea@na-net.ornl.gov) June 6, 1994 gams i1c syevj for the code implements the accurate symmetric eigensolver which consist of the symmetric indefinite decomposition followed by implicit Jacobi iteration. by "Dr. Ivan Slapnicar" , 3 Dec 1992 gams d4a1 lang fortran underwood varp2 varpro varpro-drv varpro-input varpro-output vax-blas vrend/ for 3-D volume-renderer (using ray-casting); a PVM 2.4 implementation. by Hugh Caffey, caffey@tc.cornell.edu Dec 10, 1992 gams q blocksolve/ for BlockSolve is a software library module for solving large, sparse, symmetric systems of linear equations on parallel computers. The package contains source code, Unix "man" pages and a manual. To achieve portability, BlockSolve uses the Chameleon package developed by Bill Gropp and others at Argonne National Laboratory. BlockSolve has been tested on the Intel DELTA, the IBM SP series, and a network of Sun workstations, but can be expected to run without modification of source code on other architectures. This file CANNOT be retrieved by email. by Mark Jones jones@cs.utk.edu, Paul Plassmann plassman@mcs.anl.gov contact jones@cs.utk.edu prec single/double gams d2b4 lang c age research # misc/umfpack.shar moved to linalg/umfpack.shar besz.c for fast zero finder for bessel functions J_nu(x) lang c by E. Onofri (onofri@parma.infn.it) gams c10a3 whitepages xplayer/ for trace2au is a tool that takes trace stream as input and outputs sounds on a Sun workstation. E.g., can be used with a trace file produced by picl to identify communication patterns, hotspots, and bottlenecks. by Jean Yves Peterschmitt and Bernard Tourancheau gams n1, s3 nonsymdc/ by Jack J. Dongarra & Majed Sidani, for This software is a sequential version of a parallel algorithm for computing the eigenvalues and eigenvectors of a non-symmetric matrix. The algorithm is based on a divide-and-conquer procedure and uses an iterative refinement technique. see tennessee/ut-cs-91-137.ps for details on the approach. by Jack Dongarra Majed Sidani ----------------------------------------------------------- path: /netlib/misc/SEV/ ----------------------------------------------------------- README letter tape tred2v.f treeqr ----------------------------------------------------------- for BlockSolve is a software library module for path: /netlib/misc/blocksolve/ ----------------------------------------------------------- BMmsg.h BSdepend.h BSlog.h BSprivate.h BSsparse.h BStree.h TAR.README doc/ examples/ src/ ----------------------------------------------------------- path: /netlib/misc/blocksolve/doc/ ----------------------------------------------------------- man/ manual/ ----------------------------------------------------------- path: /netlib/misc/blocksolve/doc/man/ ----------------------------------------------------------- man3/ ----------------------------------------------------------- path: /netlib/misc/blocksolve/doc/man/man3/ ----------------------------------------------------------- BSb_back_solve.3 BSb_backward.3 BSb_for_solve.3 BSb_forward.3 BSback_solve.3 BSback_solve1.3 BSbackward.3 BSbackward1.3 BSbjacobi.3 BScopy_nz.3 BScopy_par_mat.3 BScreate_ctx.3 BSctx_set_cs.3 BSctx_set_ct.3 BSctx_set_err.3 BSctx_set_id.3 BSctx_set_is.3 BSctx_set_np.3 BSctx_set_pr.3 BSctx_set_ps.3 BSctx_set_rt.3 BSctx_set_si.3 BSeasy_A.3 BSfactor.3 BSfor_solve.3 BSfor_solve1.3 BSforward.3 BSforward1.3 BSfree_comm.3 BSfree_copy_par_mat.3 BSfree_ctx.3 BSfree_easymat.3 BSfree_off_map.3 BSfree_par_mat.3 BSfree_reperm.3 BSfree_spmat.3 BSfreeg2l.3 BSfreel2g.3 BSget_diag.3 BSglob2loc.3 BSglob2proc.3 BSinv_diag_block.3 BSloc2glob.3 BSmain_perm.3 BSmain_reperm.3 BSmake_off_map.3 BSmat_subtract.3 BSoffset.3 BSpar_isolve.3 BSpar_solve.3 BSsave_diag.3 BSscale_diag.3 BSset_diag.3 BSset_diagv.3 BSsetup_block.3 BSsetup_factor.3 BSsetup_forward.3 BStri_mult.3 BStri_solve.3 ----------------------------------------------------------- path: /netlib/misc/blocksolve/doc/manual/ ----------------------------------------------------------- acks.tex manual.bbl manual.dvi manual.ps manual.tex sec1.tex sec2.tex sec3.tex sec4.tex sec5.tex title.tex ----------------------------------------------------------- path: /netlib/misc/blocksolve/examples/ ----------------------------------------------------------- Makefile Makefile.NULL get_mat.c get_mat0.c get_mat3.c get_mat4.c makeeui makenx makesun4null makesun4p4 map3.c master0.c master1.c master2.c master3.c master4.c pargrid.h pargrid2.h testrun.sun4 testrun2.sun4 worker0.c worker1.c worker2.c worker3.c worker4.c ----------------------------------------------------------- path: /netlib/misc/blocksolve/src/ ----------------------------------------------------------- BMcomp_msg.c BSallc_distr.c BSallc_keyarr.c BSallc_number.c BSallc_perm.c BSb_back_solve.c BSb_backward.c BSb_for_solve.c BSb_forward.c BSback_solve.c BSback_solve1.c BSbackward.c BSbackward1.c BSbase.c BSbjacobi.c BSbulletin.c BSbulletin_d.c BSclique_2_inode.c BScolor_2_clique.c BScontext.c BScontract.c BScopy_nz.c BScopy_par_mat.c BScount_nz.c BSeasy_A.c BSfactor.c BSfactor1.c BSfactorn.c BSfnd_clique.c BSfnd_inode.c BSfold_distr.c BSfor_solve.c BSfor_solve1.c BSforward.c BSforward1.c BSfree_cl2i.c BSfree_comm.c BSfree_easymat.c BSfree_inlist.c BSfree_par_mat.c BSfree_reperm.c BSfree_spmat.c BSget_diag.c BSglobal_perm.c BSheap_sort.c BSido_color.c BSins_diag.c BSinv_diag_block.c BSlow2high.c BSmain_perm.c BSmain_reperm.c BSmap.c BSmat_subtract.c BSmisc_perm.c BSmy_rand.c BSnum2distr.c BSnum2perm.c BSnz_2_inode.c BSoff_gnum.c BSoffset.c BSorig_inode.c BSpack_n_send.c BSpar_bcg.c BSpar_bip.c BSpar_ip.c BSpar_isolve.c BSpar_solve.c BSpar_symmlq.c BSperm_rows.c BSrem_diag.c BSrow_err_check.c BSrow_perm.c BSrows_2_inode.c BSsave_diag.c BSscale_diag.c BSsdo_color.c BSset_diag.c BSset_diagv.c BSsetup_block.c BSsetup_factor.c BSsetup_forward.c BSsort_rows.c BSsort_rows.o BSspace.c BStrans_perm_cl.c BStrans_perm_in.c BStri_mult.c BStri_solve.c BSx_color.c Makefile Makefile.NULL makeeui makenx makesun4null makesun4p4 ----------------------------------------------------------- path: /netlib/misc/gmres/ ----------------------------------------------------------- READ_ME_FIRST bvp.f circ.f condif.f gmresdb1.f gmresdb2.f hwscrtd.f overview pnbex.f ----------------------------------------------------------- for for checkpointing programs on the Intel iPSC/2 & path: /netlib/misc/ickp/ ----------------------------------------------------------- FILES INFO README bin/ examples/ lib/ man/ src/ ----------------------------------------------------------- path: /netlib/misc/ickp/bin/ ----------------------------------------------------------- README doickp iload ----------------------------------------------------------- path: /netlib/misc/ickp/examples/ ----------------------------------------------------------- hpart/ part/ ----------------------------------------------------------- path: /netlib/misc/ickp/examples/hpart/ ----------------------------------------------------------- .ickprc README hpart.c hpart.h in500 makefile mkpar mkpar.c part.c ----------------------------------------------------------- path: /netlib/misc/ickp/examples/part/ ----------------------------------------------------------- .ickprc README in500 makefile mkpar mkpar.c part.c ----------------------------------------------------------- path: /netlib/misc/ickp/lib/ ----------------------------------------------------------- 860/ ickp_conv.sh ickp_fmain.o ickp_main.o libickp.a makedep.awk makedep.sh mkckpmain.sh mkmake.sh ----------------------------------------------------------- path: /netlib/misc/ickp/lib/860/ ----------------------------------------------------------- ickp_conv.sh ickp_fmain.o ickp_main.o libickp.a makedep.sh mkckpmain.sh mkmake.sh ----------------------------------------------------------- path: /netlib/misc/ickp/man/ ----------------------------------------------------------- doickp.1 ickp.1 iload.1 ----------------------------------------------------------- path: /netlib/misc/ickp/src/ ----------------------------------------------------------- mkmake/ tools/ ----------------------------------------------------------- path: /netlib/misc/ickp/src/mkmake/ ----------------------------------------------------------- README mkmake.head mkmake.sh mkmake.tail ----------------------------------------------------------- path: /netlib/misc/ickp/src/tools/ ----------------------------------------------------------- .mkdep doickp.c iload.c makefile ----------------------------------------------------------- for - Fortran subroutines for the weights of path: /netlib/misc/iqpack/ ----------------------------------------------------------- iqd.f iqtest.d iqtest.f ----------------------------------------------------------- for program to plot graphs in Postscript path: /netlib/misc/jgraph/ ----------------------------------------------------------- MSDOS.help NeXT.help README acc.jgr acc.tex ad.jgr alb.jgr bailey.jgr bailey.pts cube.jgr data.txt descrip.mms disk.jgr draw.c ebars.jgr edit.c ex1.jgr ex2.jgr exit.c g8.jgr g8col.jgr g9n10.jgr gpaper.jgr hypercube.jgr jgraph.1 jgraph.c jgraph.com jgraph.h jmalloc.c list.c list.h mab2.jgr mab2.times makefile nr.jgr printline.c prio_list.c prio_list.h process.c redexp.vms show.c sin.c sin.jgr sin.pts sin1.jgr sin2.c sin2.jgr sin2.pts sin3.jgr sin3.pts token.c tree.awk wortman.jgr ----------------------------------------------------------- path: /netlib/misc/map/ ----------------------------------------------------------- makefile map.c map.icon memory.lu2 memory.luall memory.mm memory.sgeinv memory.sgetrf memory.sgetrf2 memory.spoinv memory.spoinvl memory.spotrf memory.spotrfl memory.tredb ----------------------------------------------------------- for tutorial 1d multigrid path: /netlib/misc/mglab/ ----------------------------------------------------------- # mglab.for is a tutorial multigrid program. # It solves elliptic boundary values in one dimension. # The user may choose various multigrid cycles, transfer operators, smoothing # methods, and nested iteration end defect correction. Cell-centered and # vertex-centered discretization and multigrid is included. # Documentation is included in the program. # The program is written in portable FORTRAN-77, and has run on MS-DOS PC's # and Unix mainframes. # The methods used are fully described in the following book: # An Introduction to Multigrid Methods, Wiley, Chichester, 1992 by # P.Wesseling. mglab.for for FORTRAN source of the tutorial multigrid program. mglab.dat for example of an input file. mglab.res for corresponding output. readme ----------------------------------------------------------- # Portable (to most UNIX systems) message-passing path: /netlib/misc/mpsim/ ----------------------------------------------------------- mpsim/ ----------------------------------------------------------- path: /netlib/misc/mpsim/mpsim/ ----------------------------------------------------------- README ccplot.c chol.h cholh.c cholhv2.c choln.c cholnv2.c echoh.c echon.c iph.c iphf.f iphfv2.f iphg.c iphv2.c ipn.c ipnf.f ipnfv2.f ipnv2.c nstats.c recthv2.c rectnv2.c ringh.f ringhv1.f ringn.f ringnv1.f sbld sfbld src/ trace1.c ----------------------------------------------------------- path: /netlib/misc/mpsim/mpsim/src/ ----------------------------------------------------------- CHANGES README drive.c f286toc.f ftnsubs.c makefile makefile.seq makefile.sysv makefile.sysv3 makefile.vax makefile.xenix mpsim.c mpsim.man sbld sbld.xenix seqftn.f sfbld sfbld.seq sfbld.vax sfbld.xenix sim.h simlib.c simlib.h userin.c ----------------------------------------------------------- for the software for running the na-net. path: /netlib/misc/nanet/ ----------------------------------------------------------- Makefile README addresses.txt convert.c daily_mail.c help.txt message.txt namailer.c nanet.c nanet.doc nanet_daemon.c netlib.c netlib.help next_mail.message process.mail send_digest.c send_one_message.c sendmail.cf usage.addresses usage.txt ----------------------------------------------------------- by Jack J. Dongarra & Majed Sidani, path: /netlib/misc/nonsymdc/ ----------------------------------------------------------- d1mach.f daxpy.f dchk21.f dcopy.f ddot.f depslon.f dgehd3.f dgemm.f dgemv.f dger.f dget21.f dget22.f dhqr2.f dhsein.f dhseqr.f dlabad.f dlacpy.f dlaein.f dlafts.f dlahd2.f dlahqr.f dlahrd.f dlaln2.f dlamch.f dlangb.f dlange.f dlanhs.f dlansb.f dlansp.f dlansy.f dlapy2.f dlaran.f dlarf.f dlarfg.f dlarfy.f dlarnd.f dlaror.f dlarot.f dlartg.f dlassq.f dlasum.f dlatm1.f dlatm2.f dlatm3.f dlatme.f dlatmr.f dlatms.f dlatrs.f dlazro.f dmachr.f dnrm2.f dorgc3.f dormc2.f dorml2.f drandom.f drot.f dscal.f dstech.f dstect.f dstt21.f dsvdch.f dsvdct.f dsymv.f dsyr.f dsyr2.f dsyt21.f dtrevc.f dtrsv.f envir.f fcaltol.f fdandc.f fdefcnt.f fiterat.f fmylun.f fmysoln.f fresid.f fscale.f fvec.f fxops.f idamax.f lsame.f lsamen.f makefile test.f xerbla.f ----------------------------------------------------------- path: /netlib/misc/trace/ ----------------------------------------------------------- README makefile newt.h sched.trace.c trace.DC trace.PASCAL trace.SG trace.SOLVE ----------------------------------------------------------- path: /netlib/misc/trace2au_report/ ----------------------------------------------------------- deduce.ps duration.ps sound.bib sound.tex xplayer.ps ----------------------------------------------------------- path: /netlib/misc/trace2au_tools/ ----------------------------------------------------------- Makefile README TRF/ play.c tr_send.c tr_sendmix.c tr_sendnum.c ----------------------------------------------------------- path: /netlib/misc/trace2au_tools/TRF/ ----------------------------------------------------------- README chol.trf exch.trf fac.trf fans.trf fft.trf fft64.trf flops.trf matrix.trf shuffle.trf sort.trf sparse.trf test.trf transpose.trf ----------------------------------------------------------- for 3-D volume-renderer (using ray-casting); a PVM path: /netlib/misc/vrend/ ----------------------------------------------------------- vrend.README.Makefile/ vrend.c.source/ vrend.fortran.source/ vrend.includes/ vrend.test.problem/ ximstuff/ ----------------------------------------------------------- path: /netlib/misc/vrend/vrend.README.Makefile/ ----------------------------------------------------------- Makefile README getrtc.s ----------------------------------------------------------- path: /netlib/misc/vrend/vrend.c.source/ ----------------------------------------------------------- ccls.c copn.c rleout.c ----------------------------------------------------------- path: /netlib/misc/vrend/vrend.fortran.source/ ----------------------------------------------------------- chnks.f chunks.f cput.f dinit.f encode.f fixit.f gethosts.f hlsrgb.f in3dfmt.f int2char.f pallslabs.f plndst.f pvrmain.f pvrplot.f read3d.f rgbval.f setshl.f startit.f varld.f varsve.f vrrays.f wallt.f ----------------------------------------------------------- path: /netlib/misc/vrend/vrend.includes/ ----------------------------------------------------------- bcst.rcv.pvm.incl bcst.snd.pvm.incl begcpuplot.rs6k.incl begcpuslab.rs6k.incl begwholetime.rs6k.incl chnk.incl chnkdone.rcv.pvm.incl chnkdone.snd.pvm.incl chnkptr.rcv.pvm.incl chnkptr.snd.pvm.incl datary.rcv.pvm.incl datary.snd.pvm.incl endcpuplot.rs6k.incl endcpuslab.rs6k.incl endwholetime.rs6k.incl framno2slb.rcv.pvm.incl framno2slb.snd.pvm.incl frk.pvm.incl lst_chnkptr.setup.pvm.incl lst_chnkptr.snd.pvm.incl lst_framedone.rcv.pvm.incl lst_framedone.snd.pvm.incl lst_framno.snd.pvm.incl msgtypes.pvm.incl pallslabs.decl.pvm.incl pvrmain.decl.pvm.incl pvrplot.decl.pvm.incl scrn_strp.rcv.pvm.incl scrn_strp.snd.pvm.incl sysvers.pvm.incl thisimagedone.rcv.pvm.incl thisimagedone.snd.pvm.incl vrparam.incl vrr2plot.rcv.pvm.incl vrr2plot.snd.pvm.incl vrrays.decl.pvm.incl ----------------------------------------------------------- path: /netlib/misc/vrend/vrend.test.problem/ ----------------------------------------------------------- runsphere sph0 sphere.in sphere5.VRPARM ----------------------------------------------------------- path: /netlib/misc/vrend/ximstuff/ ----------------------------------------------------------- ImageHeader.h Makefile.xim README.xim RLAHeader.h alcols.c declarations.h gstoxim.c gstoxim.n quantizim.c quantizim.n rgbtoxim.c rgbtoxim.n rlatoxim.c rlatoxim.n rletoxim.c runlen.c smoothim.c smoothim.n xim.c xim.n xim.shar.bld ----------------------------------------------------------- for trace2au is a tool that takes trace stream as path: /netlib/misc/xplayer/ ----------------------------------------------------------- Makefile README fast_forward.icon loudspeaker.icon minus.icon musicbox.icon play.icon plus.icon stop.icon time_popup.G time_popup.info time_popup_stubs.c time_popup_ui.c time_popup_ui.h xp_create.c xp_defs.h xp_mix.c xp_sound.c xp_speed.c xp_utils.c xplayer.G xplayer.P xplayer.c xplayer.h xplayer.info xplayer.make xplayer_stubs.c xplayer_ui.c xplayer_ui.h ----------------------------------------------------------- for multiple precision arithmetic path: /netlib/mpfun/ ----------------------------------------------------------- f77-cray/ for multiple precision arithmetic, Cray version lang Fortran77 size 536 kB f77-ieee/ for multiple precision arithmetic, IEEEfp version lang Fortran77 size 537 kB f90-cray/ for multiple precision arithmetic, Cray version lang Fortran90 size 444 kB f90-ieee/ for multiple precision arithmetic, IEEEfp version lang Fortran90 size 444 kB papers/ for multiple precision arithmetic lang TeX ----------------------------------------------------------- for multiple precision arithmetic, Cray version path: /netlib/mpfun/f77-cray/ ----------------------------------------------------------- mpfunc.f readme-f77-cray testmpc.f testran.f testran.out transmpc.f ----------------------------------------------------------- for multiple precision arithmetic, IEEEfp version path: /netlib/mpfun/f77-ieee/ ----------------------------------------------------------- mpfun.f readme-f77-ieee testmp.f testran.f testran.out transmp.f ----------------------------------------------------------- for multiple precision arithmetic, Cray version path: /netlib/mpfun/f90-cray/ ----------------------------------------------------------- mpfun.f90 mpmod.f90 readme-f90-cray testmp.f90 tmpmod.f90 tmpmod.out ----------------------------------------------------------- for multiple precision arithmetic, IEEEfp version path: /netlib/mpfun/f90-ieee/ ----------------------------------------------------------- mpfun90.f mpmod90.f readme-f90-ieee testmp90.f tmpmod.out tmpmod90.f ----------------------------------------------------------- for multiple precision arithmetic path: /netlib/mpfun/papers/ ----------------------------------------------------------- mpf90.tex mpfun.tex readme-papers transmp.tex ----------------------------------------------------------- for numerical analysis mailing list path: /netlib/na-digest/ ----------------------------------------------------------- v86/ v87/ v88/ v89/ v90/ v91/ v92/ v93/ v94/ ----------------------------------------------------------- path: /netlib/na-digest/v86/ ----------------------------------------------------------- na-v1n1 na-v1n2 na-v2n1 na-v2n2 na-v2n3 na-v2n4 na-v3n1 na-v3n2 na-v4n1 na-v4n2 na-v4n3 na-v4n4 ----------------------------------------------------------- path: /netlib/na-digest/v87/ ----------------------------------------------------------- n1 n12 n13 n14 n15 n16 n17 n2 n21 n22 n23 n24 n25 n26 n28 n3 n31 n32 n33 n35 n37 n38 n39 n4 n40 n41 n42 n43 n44 n49 n5 n50 n51 n52 n53 n54 n55 n56 n57 n58 n59 n6 n61 n62 n62b n63 n64 n65 n66 n67 n68 n69 n7 n70 n71 n72 n73 n74 n75 n76 n77 n78 n79 n80 n81 n82 n83 n84 ----------------------------------------------------------- path: /netlib/na-digest/v88/ ----------------------------------------------------------- n1 n10 n11 n12 n13 n14 n15 n16 n17 n18 n19 n2 n20 n21 n22 n23 n24 n25 n26 n27 n28 n29 n3 n30 n32 n33 n34 n35 n36 n38 n39 n4 n40 n41 n42 n43 n44 n45 n46 n47 n48 n49 n5 n50 n51 n6 n7 n8 n9 v88engl ----------------------------------------------------------- path: /netlib/na-digest/v89/ ----------------------------------------------------------- n1 n10 n11 n12 n13 n14 n15 n16 n17 n18 n19 n2 n20 n21 n22 n23 n24 n25 n26 n27 n28 n29 n3 n30 n31 n32 n33 n34 n35 n36 n37 n38 n39 n4 n40 n41 n42 n43 n44 n45 n46 n47 n48 n49 n5 n50 n6 n7 n8 n9 ----------------------------------------------------------- path: /netlib/na-digest/v90/ ----------------------------------------------------------- n01 n02 n03 n04 n05 n06 n07 n08 n09 n10 n11 n12 n13 n14 n15 n16 n17 n18 n19 n20 n21 n22 n23 n24 n25 n26 n27 n28 n29 n30 n31 n32 n33 n34 n35 n36 n37 n38 n39 n40 n41 n42 n43 n44 n45 n46 ----------------------------------------------------------- path: /netlib/na-digest/v91/ ----------------------------------------------------------- n01 n02 n03 n04 n05 n06 n07 n08 n09 n10 n11 n12 n13 n14 n15 n16 n17 n18 n19 n20 n21 n22 n23 n24 n25 n26 n27 n28 n29 n30 n31 n32 n33 n34 n35 n36 n37 n38 n39 n40 n41 n42 n43 n44 n45 n46 n47 n48 n49 n50 n51 n52 ----------------------------------------------------------- path: /netlib/na-digest/v92/ ----------------------------------------------------------- n01 n02 n03 n04 n05 n06 n07 n08 n09 n10 n11 n12 n13 n14 n15 n16 n17 n18 n19 n20 n21 n22 n23 n24 n25 n26 n27 n28 n29 n30 n31 n32 n33 n34 n35 n36 n37 n38 n39 n40 n41 n42 n43 n44 n45 n46 n47 n48 n49 ----------------------------------------------------------- path: /netlib/na-digest/v93/ ----------------------------------------------------------- n01 n02 n03 n04 n05 n06 n07 n08 n09 n10 n11 n12 n13 n14 n15 n16 n17 n18 n19 n20 n21 n22 n23 n24 n25 n26 n27 n28 n29 n30 n31 n32 n33 n34 n35 n36 n37 n38 n39 n40 n41 n42 n43 n44 n45 n46 n47 n48 ----------------------------------------------------------- path: /netlib/na-digest/v94/ ----------------------------------------------------------- n01 n02 n03 n04 n05 n06 n07 n08 n09 n10 n11 n12 n13 n14 n15 n16 n17 n18 n19 n20 n21 n22 n23 n24 n25 n26 n27 n28 n29 n30 n31 n32 n33 n34 n35 n36 n37 n38 n39 n40 n41 n42 n43 n44 n45 n46 n47 ----------------------------------------------------------- for linear algebra and optimization path: /netlib/napack/ ----------------------------------------------------------- .depend addchg.f for Add one vector to another and evaluate 1-norm of the increment and 1-norm of the sum basis.f for Compute an orthonormal basis for a collection of vectors bidag.f for Reduce a matrix to bidiagonal form bidag2.f for Reduce a matrix to bidiagonal form and evaluate all or part of the orthogonal matrices used in the reduction process cg.f for Compute an unconstrained minimum for a multivariate function using the (preconditioned) conjugate gradient method czero.f for Compute zeros of a (complex) polynomial dependencies ffc.f for Conjugate fast Fourier transform fft.f for Fast Fourier transform lancz.f for Perform an iteration of Lanczos method to reduce a matrix to tridiagonal form newton.f for Apply one step of Newton's method to the characteristic polynomial for a tridiagonal matrix norm1.f for Estimate 1-norm of a matrix null.f for Compute an orthonormal basis for the space perpendicular to a given collection of vectors over.f for Compute the least squares solution to an overdetermined linear system precg.f for Solve a linear system using (preconditioned) conjugate gradients pseudo.f for Compute regularized pseudoinverse qr.f for QR factor a matrix quasi.f for Use a quasi-Newton method to solve a nonlinear system root.f for Solve a scalar equation rsolve.f for Compute the regularized solution to a linear system sdiag2.f for Same as SDIAG except the input matrix is not stored in compressed format sing.f for Compute the singular value decomposition of a general matrix singb.f for Compute the singular value decomposition of a bidiagonal matrix slice.f for Compute the eigenvalues contained on a given interval for a tridiagonal matrix whose cross-diagonal products are nonnegative stopit.f for Test for convergence tval.f for Compute the k-th smallest or the k-th largest eigenvalue of a tridiagonal matrix whose cross-diagonal products are nonnegative under.f for Compute the least squares (minimum norm) solution to an underdetermined linear system update.f for Equate one vector to another and evaluate 1-norm of the difference and 1-norm of the new vector whatis.f for Print iteration number, iteration difference, and stopping criterion # Most of the other files in napack obey the following naming scheme # B - Band matrix # C - Complex matrix # E - Upper Hessenberg matrix # H - Symmetric band matrix # I - Symmetric matrix (symmetric pivoting) # K - General matrix (complete pivoting) # O - Circulant matrix # P - Tridiagonal matrix (partial pivoting) # S - Symmetric matrix # T - Tridiagonal matrix # The stems which allow one or more prefixes are the following: # Stem Prefixes Action # ---- -------- ------ # BAL C Balance the matrix # CON B,C,E,H,I,K,P,S,T Estimate condition number # DET B,C,E,H,I,K,P,S,T Compute the determinant # DIAG C,E,H,S,T Compute the diagonalization # FACT B,C,E,H,I,K,P,S,T Compute the LU factorization # HESS C,H,S Reduce to upper Hessenberg form # (insert A prefix to also balance) # MULT B,C,E,H,O,S,T Multiply matrix by vector # PACK C,R Rearrange elements of an array so that # elements # of a square matrix are stored sequentially # (use R prefix if matrix is rectangular) # POWER C,M Compute dominant eigenpairs by the power # method # (use M prefix to compute several eigenpairs) # SIM C,H,S Compute the similarity transform used in # the # reduction to either Hessenberg or tridiagonal form # SOLVE B,C,E,H,I,K,O,P,S,T Solve a factored system of equations # TRANS B,C,E,K,P,T Solve the transpose of a factored system # VALS C,E,H,O,S,T Compute eigenvalues # VECT C,E,H,S,T Compute eigenvector corresponding to # given # eigenvalue # VERT B,C,E,H,I,K,O,P,S,T Invert a matrix ahess.f bal.f bcon.f bdet.f bfact.f bmult.f bsolve.f btrans.f bvert.f cahess.f cbal.f ccon.f cdet.f cdiag.f cediag.f ceig.f cemult.f cevals.f cevect.f cfact.f chess.f cmult.f con.f cpack.f cpower.f csim.f csolve.f ctrans.f cvals.f cvect.f cvert.f dag.f det.f diag.f dmag.f econ.f edet.f ediag.f efact.f eig2.f eig3.f emult.f esolve.f etrans.f evals.f evect.f evert.f fact.f fasem.f ffc0.f fft0.f fix.Sep88 hcon.f hdet.f hdiag.f hess.f hfact.f hhess.f hmult.f hsim.f hsolve.f hsr1.f hsr2.f hsr3.f hsr4.f hsr5.f hvals.f hvect.f hvert.f icon.f idet.f ifact.f isolve.f ivert.f kcon.f kdet.f kfact.f ksolve.f ktrans.f kvert.f mag.f mgrid.f mpower.f mult.f omult.f osolve.f ovals.f overt.f pack.f pcon.f pdet.f pfact.f power.f psolve.f ptrans.f pvect.f pvert.f rpack.f scon.f sdet.f sdiag.f semcon.f sfact.f shess.f sim.f smult.f solve.f sort.f sort2.f sqr.f ssim.f ssolve.f svals.f svect.f svert.f tcon.f tdet.f tdg.f tdiag.f tfact.f tmult.f trans.f tsolve.f ttrans.f tvals.f tvect.f tvert.f vals.f vect.f vert.f vls.f ----------------------------------------------------------- for netlib column for SIAM News path: /netlib/news/ ----------------------------------------------------------- bibnet.ps bibnet.tex gams.ps by Ron Boisvert size 239 kB wwwtn.tex # a followup note on the Tennessee facilities www.tex # netlib.att.com joined the World Wide Web in Oct 1993 here is the SIAM News article describing that. www.ps searching # written Jun 92 bigfiles # written Aug 91 contributions # written Dec 90 greetings # written Jul 90 # the following are of, at best, historical interest nanet1 nanet2 nanet3 netnews1 bibnet.ps bibnet.tex ----------------------------------------------------------- for algorithms from the new journal "Numerical path: /netlib/numeralgo/ ----------------------------------------------------------- na1 for avoiding breakdown and near-breakdown in Lanczos type algorithms by Brezinski, Sadok, Zaglia ref Numerical Algorithms 1(1991) 261-284 lang Fortran na2 for B-nets of box splines on three- and four-directional meshes by M.-J. Lai ref Numerical Algorithms 2 (1992) 33-38 lang Fortran na3 for recurrence relations of biorthogonality by Zelia Da Rocha ref Numerical Algorithms 3 (1992) 173-183 lang Mathematica2.0 na4/ for regularization of discrete ill-posed problems by P. C. Hansen ref Numerical Algorithms 6,1-35 lang Matlab, PostScript size 1.1 MB na5 for near-breakdown in CGS by Brezinski and Zaglia ref Numerical Algorithms 7, 33-73 size 235 kB na6 # name: DQAINF for integration of infinite oscillating tails by Espelid and Overholt ref Numerical Algorithms 8, 83-101 na7 # name: DECUHR for integrations of singular functions over hyperrectangle by Espelid and Genz ref Numerical Algorithms 8, 201-220 na8/ for L_2 reduced-order model problem with fixed denominator degree by Krajewski, Lepschy, Redivo-Zaglia, Viaro ref Numerical Algorithms 9, 355-377 lang Matlab ----------------------------------------------------------- for regularization of discrete ill-posed problems path: /netlib/numeralgo/na4/ ----------------------------------------------------------- AREADME.1ST Contents.m Manual.ps app_hh.m baart.m bidiag.m bsvd.m cgls.m csd.m csvd.m deriv2.m discrep.m dsvd.m fil_fac.m fnder.m foxgood.m gcv.m gen_form.m gen_hh.m get_l.m gsvd.m heat.m heb_new.m ilaplace.m l_corner.m l_curve.m lagrange.m lanc_b.m lsolve.m lsqi.m lsqr.m ltsolve.m maxent.m mgs.m mtsvd.m newton.m nu.m parallax.m pcgls.m phillips.m picard.m pinit.m plot_lc.m plsqr.m pnu.m ppbrk.m ppcut.m ppmak.m ppual.m pythag.m quasiopt.m regudemo.m shaw.m sorted.m sp2pp.m spbrk.m spikes.m spleval.m spmak.m sprpp.m std_form.m tgsvd.m tikhonov.m tsvd.m ttls.m ursell.m wing.m ----------------------------------------------------------- for L_2 reduced-order model problem with fixed path: /netlib/numeralgo/na8/ ----------------------------------------------------------- READ.ME energy.m l2mimo.m l2siso.m mino.m minr.m mour.m rever.m sino.m sinr.m sour.m ----------------------------------------------------------- for initial and boundary value ordinary differential path: /netlib/ode/ ----------------------------------------------------------- .depend Makefile disclaimer rksuite/ alg Runge-Kutta for initial value problem for first order ordinary differential equations A suite of codes for solving IVPs in ODEs. A choice of RK methods is available. Includes an error assessment facility and a sophisticated stiffness checker. Template programs and example results provided. Supersedes RKF45, DDERKF, D02PAF. ref RKSUITE, Softreport 92-S1, Dept of Math, SMU, Dallas, Texas by R.W. Brankin (NAG), I. Gladwell and L.F. Shampine (SMU) lang Fortran prec double gams I1a1a colnew.f by Ascher and Bader for ordinary differential equation boundary-value problem solver alg truncated powers collocation (modification of colsys) prec double rel good age stable gams I1b2 colsys.f by Ascher, Christiansen, and Russell for ordinary differential equation boundary-value problem solver alg B-spline collocation prec double rel good age stable gams I1b2 coldae.f by Ascher and Spiteri for semi-explicit differential-algebraic equations with index at most 2. alg collocation, proj on constraint manifold (modification of colnew) prec double ddasrt.f by Petzold for stiff differential-algebraic system solver with root stopping alg backward differentiation formulae prec double rel good age stable # needs routines from ode/ddassl.f but duplicated auxiliary routines are different gams I1a2 ddassl.f by Petzold for stiff differential-algebraic system solver alg backward differentiation formulae prec double rel good age stable gams I1a2 dmebdf.f by Cash for stiff ordinary differential equation initial-value problem solver alg extended backward differentiation formulae prec double gams I1a2 # replaces dp12.f and sp12.f dresol.f by Dieci for solving stiff/nonstiff matrix differential Riccati equations (DREs) ref SIAM J. Numerical Analysis 29-3 prec single alg Adams' and backward differentiation formulae gams I1a1b I1a2 # Based on lsode by Hindmarsh. Solves symmetric and unsymmetric DREs. dverk.f by Jackson, Hull, and Enright for ordinary differential equation initial-value problem solver with global error control alg Verner's fifth and sixth order Runge-Kutta pair prec double gams I1a1a epsode.f by Bryne and Hindmarsh for stiff ordinary differential equation initial-value problem solver alg backward differentiation formulae (variable coefficient formulae) prec double gams I1a2 mus.doc by Mattheij and Staarink for ordinary differential equation boundary-value problem solver alg multiple shooting prec double gams I1b1 I1b2 mus1.f mus2.f mus3.f muslex.f for example driver for MUSL musnex.f for example driver for MUSN ode.f by Shampine and Gordon for ordinary differential equation initial-value problem solver alg Adam's methods prec double rel excellent age old gams I1a1b rkc.f by Sommeijer for nearly-stiff ordinary differential equation initial-value problem solver alg second-order explicit Runge-Kutta formulae gams I1a1a rkf45.f by Watts and Shampine for ordinary differential equation initial-value problem solver alg Runge-Kutta Fehlberg fourth-fifth order prec double rel good age old gams I1a1a scolsys.f by Ascher, Christiansen, and Russell for ordinary differential equation boundary-value problem solver alg B-spline collocation prec single rel good age stable gams I1b2 sdasrt.f by Petzold for stiff differential-algebraic system solver with root stopping alg backward differentiation formulae prec single rel good age stable # needs routines from ode/sdassl.f but duplicated auxiliary routines are different gams I1a2 sdassl.f by Petzold for differential-algebraic system solver alg backward differentiation formulae prec double rel good age stable gams I1a2 sderoot.f by Shampine, Gordon, and Allen for ordinary differential equation initial-value problem solver with root stopping alg Adam's methods prec single rel good age old gams I1a1b sode.f by Shampine and Gordon for ordinary differential equation initial-value problem solver alg Adam's methods prec single rel excellent age old gams I1a1b srkf45.f by Watts and Shampine for ordinary differential equation initial-value problem solver alg Runge-Kutta Fehlberg fourth-fifth order prec single rel good age old gams I1a1a svode.f by Brown, Byrne and Hindmarsh for non-stiff or stiff ordinary differential equation initial-value problem solver alg backward differentiation formulae (variable coefficient formulae) prec single # updated version of epsode gams I1a2 svodpk.f by Brown, Byrne and Hindmarsh for large non-stiff or stiff ordinary differential equation initial-value problem solver alg backward differentiation formulae (variable coefficient formulae) with GMRES with user-suppled preconditioner prec single # updated version of epsode gams I1a2 vode.f by Brown, Byrne and Hindmarsh for non-stiff or stiff ordinary differential equation initial-value problem solver alg backward differentiation formulae (variable coefficient formulae) prec double # updated version of epsode gams I1a2 vodpk.f by Brown, Byrne and Hindmarsh for large non-stiff or stiff ordinary differential equation initial-value problem solver alg backward differentiation formulae (variable coefficient formulae) with GMRES with user-suppled preconditioner prec double # updated version of epsode gams I1a2 size 200 kB ex/ for example programs cvode/ for large non-stiff or stiff ordinary differential equation initial-value problem solver alg combines earlier vode.f and vodpk.f lang C by Scott D. Cohen and Alan C. Hindmarsh size 380 kB # get it by ftp or Mosaic and say "uncompress < cvode.tar.Z | tar xf -" twpbvp.f by Cash and Wright for ordinary differential equation boundary-value problem solver alg deferred correction with mono-implicit Runge Kutta ref ode/twpbvp.tex (LaTeX) lang Fortran prec double rel good age new gams I1b2 twpbvp.tex by Cash and Wright for documentation for twpbvp.tex ----------------------------------------------------------- for large non-stiff or stiff ordinary differential path: /netlib/ode/cvode/ ----------------------------------------------------------- CVODE/ ----------------------------------------------------------- path: /netlib/ode/cvode/CVODE/ ----------------------------------------------------------- Makefile README doc/ examples/ include/ source/ ----------------------------------------------------------- path: /netlib/ode/cvode/CVODE/doc/ ----------------------------------------------------------- cvuguide.ps ----------------------------------------------------------- path: /netlib/ode/cvode/CVODE/examples/ ----------------------------------------------------------- band_ex/ dense_ex/ direct_dem/ krylov_dem/ krylov_ex/ ----------------------------------------------------------- path: /netlib/ode/cvode/CVODE/examples/band_ex/ ----------------------------------------------------------- Makefile cvbx.c cvbx.out ----------------------------------------------------------- path: /netlib/ode/cvode/CVODE/examples/dense_ex/ ----------------------------------------------------------- Makefile cvdx.c cvdx.out ----------------------------------------------------------- path: /netlib/ode/cvode/CVODE/examples/direct_dem/ ----------------------------------------------------------- Makefile cvdemd.c cvdemd.out ----------------------------------------------------------- path: /netlib/ode/cvode/CVODE/examples/krylov_dem/ ----------------------------------------------------------- Makefile cvdemk.c cvdemk.out ----------------------------------------------------------- path: /netlib/ode/cvode/CVODE/examples/krylov_ex/ ----------------------------------------------------------- Makefile cvkx.c cvkx.out ----------------------------------------------------------- path: /netlib/ode/cvode/CVODE/include/ ----------------------------------------------------------- band.h cvband.h cvdense.h cvdiag.h cvode.h cvspgmr.h dense.h iterativ.h llnlmath.h llnltyps.h spgmr.h vector.h ----------------------------------------------------------- path: /netlib/ode/cvode/CVODE/source/ ----------------------------------------------------------- band.c cvband.c cvdense.c cvdiag.c cvode.c cvspgmr.c dense.c iterativ.c llnlmath.c spgmr.c vector.c ----------------------------------------------------------- for example programs path: /netlib/ode/ex/ ----------------------------------------------------------- colnew.f for example program for (ode/colnew) colsys.f for example program for (ode/colsys) ddassl.f for example program for (ode/ddassl) dresol.f for example programs for (ode/dresol) dverk.f for example program for (ode/dverk) epsode1.f for example program for(ode/epsode) epsode2.f for example program for (ode/epsode) ode.f for example program for (ode/ode) sdassl.f for example program for (ode/sdassl) ddasrt.f scolsys.f sdasrt.f sderoot.f sode.f ----------------------------------------------------------- alg Runge-Kutta path: /netlib/ode/rksuite/ ----------------------------------------------------------- .depend rksuite_90_v1.0/ for initial value problem for first order ordinary differential equations lang Fortran90 rksuite.f alg Runge-Kutta for initial value problem for first order ordinary differential equations lang Fortran77 rksuite.doc for how to use the suite of codes to solve initial value problems. details.doc for how the codes are organized. In particular, there is a list showing for each routine which routines it calls and which call it directly. Also, routines communicate with each other by means of labelled COMMON blocks. They are described and details of their usage by the routines are given. templates/ for samples of how to use the suite to solve typical problems. Each template comes in two variants. An output file for each template showing the results of the use of the template in both its variants is provided. Other choices of methods are possible in some templates; output using them is included in the output file. That is, there are nine files in total (six with extension .f and three with extension .out). readme ----------------------------------------------------------- for initial value problem for first order ordinary path: /netlib/ode/rksuite/rksuite_90_v1.0/ ----------------------------------------------------------- rksuite_90_v1.0/ ----------------------------------------------------------- path: /netlib/ode/rksuite/rksuite_90_v1.0/rksuite_90_v1.0/ ----------------------------------------------------------- CODE/ DOCS/ EXAMPLES/ README RESULTS/ rksuite_90.tex ----------------------------------------------------------- path: /netlib/ode/rksuite/rksuite_90_v1.0/rksuite_90_v1.0/CODE/ ----------------------------------------------------------- do_1_to_0 do_1_to_2 do_r_to_c make_rk rksuite_90.bas ----------------------------------------------------------- path: /netlib/ode/rksuite/rksuite_90_v1.0/rksuite_90_v1.0/DOCS/ ----------------------------------------------------------- rksuite_90.doc ----------------------------------------------------------- path: /netlib/ode/rksuite/rksuite_90_v1.0/rksuite_90_v1.0/EXAMPLES/ ----------------------------------------------------------- eg_invar_imbed.f90 eg_orr_somm.f90 eg_orr_somm_r.f90 eg_quadrature.f90 eg_simple.f90 eg_simple_c0.f90 eg_simple_c0_a.f90 eg_stiff_r0.f90 eg_two_body.f90 ----------------------------------------------------------- path: /netlib/ode/rksuite/rksuite_90_v1.0/rksuite_90_v1.0/RESULTS/ ----------------------------------------------------------- eg_invar_imbed.r eg_orr_somm.r eg_orr_somm_r.r eg_quadrature.r eg_simple.r eg_simple_c0.r eg_simple_c0_a.r eg_stiff_r0.r eg_two_body.r ----------------------------------------------------------- for samples of how to use the suite to solve typical path: /netlib/ode/rksuite/templates/ ----------------------------------------------------------- tmpl1.out tmpl1a.f tmpl1b.f tmpl2.out tmpl2a.f tmpl2b.f tmpl3.out tmpl3a.f tmpl3b.f ----------------------------------------------------------- for ODE package path: /netlib/odepack/ ----------------------------------------------------------- .depend Makefile demo.f for example program for the routines in the odepack library prec double dependencies doc for document describing the set of routines in the odepack library, recommended reading prec double lsoda.f for ODEs of the form dy/dt=f, automatic selection between stiff and nonstiff methods gams I1a1b I1a2 prec double lsodar.f for a variant of (odepack/lsoda) for ODEs of the form dy/dt=f for stiff and nostiff odes with root finding for a set of functions, usefule for stopping conditions or switching forms of the function f gams I1a1b I1a2 prec double lsode.f for stiff and nonstiff systems of ODEs of the form dy/dt = f, Adams method or Backward-Differentiation Formula, user supplied or difference quotient Jacobians gams I1a1b I1a2 prec double lsodes.f for stiff and nonstiff ODEs of the form dy/dt=f, general sparse Jacobian gams I1a1b I1a2 prec double lsodi.f for systems of ODEs of the form A(t,y) dy/dt = g(t,y), this can include differential-algebraic systems gams I1a1b I1a2 prec double lsoibt.f for systems of ODEs of the form A(t,y) dy/dt = g(t,y), all matrices involved are assumed to be block-tridiagonal gams I1a1b I1a2 prec double adjlr.f aigbt.f ainvg.f blkdta000.f bnorm.f cdrv.f cfode.f cntnzu.f decbt.f ewset.f fnorm.f intdy.f iprep.f jgroup.f md.f mdi.f mdm.f mdp.f mdu.f nnfc.f nnsc.f nntc.f nroc.f nsfc.f odrv.f pjibt.f prep.f prepj.f prepji.f prja.f prjs.f rchek.f roots.f slsbt.f slss.f solbt.f solsy.f srcar.f srcma.f srcms.f srcom.f sro.f stoda.f stode.f stodi.f vmnorm.f vnorm.f xerrwv.f xsetf.f xsetun.f readme ----------------------------------------------------------- for Orthogonal Distance Regression path: /netlib/odrpack/ ----------------------------------------------------------- readme for installation instructions for odrpack 2.01 readme.update for instructions for updating from odrpack 2.00 to odrpack 2.01 guide.ps for odrpack 2.01 user's reference guide, in postscript format size 926 kB makefile for unix makefile for installing odrpack 2.01 makefile.update for unix makefile for updating from odrpack 2.00 to odrpack 2.01 d_odr.f prec double gams K1a1a3, K1b1a2, L8a4, L8c5, L8d1, L8e5 for odrpack 2.01 source code, excluding linpack, blas, and machine dependent subprograms size 367 kB d_lpkbls.f prec double for subprograms from linpack and blas d_mprec0.f prec double for odrpack 2.01 machine dependent subprogram s_odr.f gams K1a1a3, K1b1a2, L8a4, L8c5, L8d1, L8e5 prec single for odrpack 2.01 source code, excluding linpack, blas, and machine dependent subprograms size 367 kB s_lpkbls.f prec single for subprograms from linpack and blas s_mprec0.f prec single for odrpack 2.01 machine dependent subprogram d_update.f prec double for source code for subprograms that changed between odrpack 2.00 and odrpack 2.01 size 283 kB s_update.f prec single for source code for subprograms that changed between odrpack 2.00 and odrpack 2.01 size 283 kB test.txt for results for d_test.f from running odrpack 2.01 on a sparc workstation d_test.f prec double for test driver d_drive1.f prec double for driver for explicit single response problem d_drive2.f prec double for driver for implicit single response problem d_drive3.f prec double for driver for explicit multiresponse problem s_test.f prec single for test driver s_drive1.f prec single for driver for explicit single response problem s_drive2.f prec single for driver for implicit single response problem s_drive3.f prec single for driver for explicit multiresponse problem data1.dat for data set for drivers d_drive1.f and s_drive1.f data2.dat for data set for drivers d_drive2.f and s_drive2.f data3.dat for data set for drivers d_drive3.f and s_drive3.f ----------------------------------------------------------- for miscellaneous optimization software, e.g. path: /netlib/opt/ ----------------------------------------------------------- praxis for minimum of the function f(x,n) of n variables, no gradient alg principal axis method ref Algorithms for finding zeros and extrema of functions without calculating derivatives by Richard Brent. # version from Stanford Linear Accelerator Center, dated 3/1/73 lang fortran gams g1a1a praxisp for minimum of the function f(x,n) of n variables, no gradient alg principal axis method ref Algorithms for finding zeros and extrema of functions without calculating derivatives by Richard Brent. # version calling the Port library workspace package gams g1a1a lang fortran dqed.f for Hanson/Krogh nonlinear least squares with linear constraints based on quadratic-tensor local model. Double precision only. Certain codes from LINPACK and BLAS not included. 7/11/89 by R. Hanson. gams k1b2a, k1b2b size 298 kB varpro for separable nonlinear least squares by variable projection method of Golub and Pereyra, with Levenberg-Marquardt code by Bolstad. See "nsf" in the library "port" for Gay and Kaufman's version. gams k1b1a2, l8e1b4 varpro-drv for separable nonlinear least squares driver varpro-input for separable nonlinear least squares input varpro-output for separable nonlinear least squares output varp2 for separable nonlinear least squares with multiple right hand sides by Randy Leveque Jun 85 gams k1b1a2, l8e1b4 lang fortran tn/ by Stephen G. Nash for unconstrained and simply bounded optimization alg truncated Newton algorithm ref SIAM J. Num. Anal. 21 (1984) 770-788 gams g1b1b, g2h1a2 lang fortran ve08/ by Phillipe Toint title VE08AD for minimizing a partially separable objective function ref 1. Griewank, A. and Ph.L. Toint, "Partitioned Variable Metric Updates for Large Structured Optimization Problems", Numerische Mathematik (39):119-137, 1982. 2. Griewank, A. and Ph.L. Toint, "Local Convergence Analysis for Partitioned Quasi-Newton Updates", Numerische Mathematik (39):429-448, 1982. 3. Griewank, A. and Ph.L. Toint, "On the Unconstrained Optimization of Partially Separable Functions". In Nonlinear Optimization 1981, edited by M.J.D. Powell, Academic Press, New-York, 1982. gams g1b1a, g1b1b, g2h1a1. g2h1a2 lang fortran nlr/ for Maximum Likelihood and Quasi-Likelihood Estimation in Nonlinear Regression by David S. Bunch, David M. Gay, and Roy E. Welsch simann.f by Bill Goffe title SA for optimizing a simply constrained, multi-optima objective function alg simulated annealing ref Goffe, Ferrier and Rogers, J. Econometrics, 60:1/2,65-100 (Jan/Feb 1994) "Global Optimization of Statistical Functions with Simulated Annealing" gams g1b2 ampl.info for A Modeling Language for Mathematical Programming by Robert Fourer, David Gay, Brian Kernighan # information on the book; code is in diskettes in book see ampl/models/ subplex/ by Tom Rowan for unconstrained optimization of general multivariate functions alg subspace-searching simplex method gams g1b2 lang fortran nnes/ by Rod Bain for nonlinear equations with simple bound constraints alg nonmonotonic line search lang Fortran size 419 kB # four of the files are drivers: EX1 and EX2 are samples, NNESDR is a generic driver and MDR is a master driver for More, Garbow & Hillstrom test problems. On a PC the test suite will run through but if the max exponent allowed is 38 then there will be a couple failures. gams f2 nnes.ps by Rod Bain for user manual for NNES size 1.1 MB # ... so you should probably get it by ftp, not email a version for A4-size paper is also available from Prof. Bain lsnno/ for nonlinear optimization subject to linear network constraints by Phillipe Toint and D. Tuyttens gams g2d3a donlp/ for general differentiable nonlinear programming using dense linear algebra by P. Spellucci ref see donlpdoc.txt (which is part of the opt/donlp.shar bundle) prec double lang Fortran 77 with milstd1753 extensions (include; do/enddo) alg sequential equality constrained quadratic programming with regularized full QP in case of rank defiency of active constraints gams g2h3b1b size 302 kB hooke.c for "minimum" of the function f(x,n) of n variables, no derivatives alg Hooke and Jeeves's direct search -- discontinuous objectives OK easy to use, but not always reliable ref CACM June 1963 p. 313. prec double by M. G. Johnson vfsr asa hopdm/ by Jacek Gondzio for (sparse) linear programming by a higher order primal-dual predictor-corrector logarithmic barrier algorithm. lang fortran ref Gondzio J. (1994). Multiple centrality corrections in a primal-dual method for linear programming, Technical Report No 1994.20, Department of Management Studies, University of Geneva, 102, Bd. Carl-Vogt, 1211 Geneva, Switzerland, November 1994. Ask gondzio@divsun.unige.ch for a copy. lbfgs_bcm/ for bound constrained optimization problems alg limited memory BFGS method by Ciyou Zhu in collaboration with R.H. Byrd, P. Lu-Chen and J. Nocedal contact ciyou@eecs.nwu.edu or nocedal@eecs.nwu.edu ref R. H. Byrd, P. Lu, J. Nocedal and C. Zhu ``A limited memory algorithm for bound constrained optimization'', SIAM J. Scientific Computing 16 (1995), no. 5. C. Zhu, R.H. Byrd, P. Lu, J. Nocedal. ``L-BFGS-B: a limited limited memory FORTRAN code for solving bound constrained memory FORTRAN code for solving bound constrained optimization problems'', Tech. Report, EECS Department, Northwestern University, 1994. (Postscript files of these papers are available via anonymous ftp to eecs.nwu.edu in the directory pub/lbfgs/lbfgs_bcm.) size 217kB prec double lbfgs_um/ for unconstrained optimization problems alg limited memory BFGS method by J. Nocedal contact nocedal@eecs.nwu.edu ref D. C. Liu and J. Nocedal, ``On the limited memory BFGS method for large scale optimization methods'' Mathematical Programming 45 (1989), pp. 503-528. (Postscript file of this paper is available via anonymous ftp to eecs.nwu.edu in the directory pub/lbfgs/lbfgs_um.) size 44kB prec double ----------------------------------------------------------- for general differentiable nonlinear programming path: /netlib/opt/donlp/ ----------------------------------------------------------- DONLPBLOCO.INC DONLPCOMMON.INC DONLPCONST.INC DONLPFUCO.INC DONLPPARAM.INC README dependencies donlp.f donlpdoc.txt donlpmain.f donlpusrfc.f examples/ gettimeofday.c testgrad.f testgraddoc.txt ----------------------------------------------------------- path: /netlib/opt/donlp/examples/ ----------------------------------------------------------- alkylation.f barnes.f boxparamid.f dembo1asc.f dembo4c.f dembo7.f equilibrium.f maratos.f murtyexa.f paviani2.f weapon.f ----------------------------------------------------------- by Jacek Gondzio path: /netlib/opt/hopdm/ ----------------------------------------------------------- hopdm.src/ ----------------------------------------------------------- path: /netlib/opt/hopdm/hopdm.src/ ----------------------------------------------------------- adlittle.mps adlittle.spc afiro.mps afiro.spc blas.f cheap.f cntaat.f dattim.f daxpy.f dcopy.f ddot.f defaat.f detspl.f dtsort.f dtsrta.f elcnst.f elvrbl.f emptyr.f errwrt.f factor.f fdaggr.f fdiden.f fsaty.f fsax.f ftime.c genqmd.f get getcol.f getdat.f getdim.f getrow.f gettim.f hmain2.f irsolv.f ldaat.f limtim.f lkcode.f lkindx.f makefile mdo.f mkspar.f mmd.f mycode.f mytime.f mywrt.f numfct.f pcchck.f pcdir.f pcelim.f pcinit.f pcpdm.f pcstep.f postsl.f prepro.f presol.f rclsng.f rdmps1.f rdmps2.f rdrhs.f rdspec.f read.me reorda.f reordi.f reordv.f rrwsng.f run runall rungay saty.f sax.f saxpy.f scalea.f schur1.f schur2.f sclcol.f sclrow.f sdot.f setmap.f smplx.f solaat.f solvl.f solvlt.f specs/ split.f symfct.f symref.f timepf.f wrtsol.f xgtcol.f xgtrow.f ----------------------------------------------------------- path: /netlib/opt/hopdm/hopdm.src/specs/ ----------------------------------------------------------- 25fv47.spc 80bau3b.spc adlittle.spc afiro.spc agg.spc agg2.spc agg3.spc aircraft.spc bandm.spc beaconfd.spc bl.spc bl2.spc blend.spc bnl1.spc bnl2.spc boeing1.spc boeing2.spc bore3d.spc brandy.spc capri.spc capuc.spc car4.spc cari.spc ch.spc co5.spc co9.spc complex.spc cq5.spc cq9.spc cr42.spc cre-a.spc cre-b.spc cre-c.spc cre-d.spc cycle.spc czprob.spc d2q06c.spc d6cube.spc degen2.spc degen3.spc df2177.spc dfl001.spc disp3.spc e226.spc embed.spc etamacro.spc farm.spc fffff800.spc finnis.spc fit1d.spc fit1p.spc fit2d.spc fit2p.spc forplan.spc ganges.spc ge.spc gen.spc gen1.spc gen2.spc geneva.spc gfrd-pnc.spc greenbea.spc greenbeb.spc grow15.spc grow22.spc grow7.spc hedge.spc israel.spc kb2.spc ken-07.spc ken-11.spc ken-13.spc ken-18.spc klopot1.spc klopot2.spc l30.spc l9.spc lotfi.spc marek.spc maros-r7.spc maros.spc mod2.spc modszk1.spc nesm.spc nl.spc orswq2.spc osa-07.spc osa-14.spc osa-30.spc pata01.spc pata02.spc patb01.spc patb02.spc pc001.spc pc002.spc pds-02.spc pds-06.spc pds-10.spc pds-20.spc perold.spc pf2177.spc pilot.spc pilot4.spc pilot87.spc pilot_ja.spc pilot_we.spc pilotnov.spc progas.spc recipe.spc refine.spc sc105.spc sc205.spc sc50a.spc sc50b.spc scagr25.spc scagr7.spc scfxm1.spc scfxm2.spc scfxm3.spc scorpion.spc scrs8.spc scsd1.spc scsd6.spc scsd8.spc sctap1.spc sctap2.spc sctap3.spc seba.spc share1b.spc share2b.spc shell.spc ship04l.spc ship04s.spc ship08l.spc ship08s.spc ship12l.spc ship12s.spc sierra.spc slptsk.spc south31.spc stair.spc standata.spc standgub.spc standmps.spc stocfor1.spc stocfor2.spc stocfor3.spc t7.spc t7b.spc t7be.spc t9.spc t9b.spc testbig.spc trans3.spc trans4.spc truss.spc tuff.spc uk.spc unzul.spc vschna02.spc vschnb01.spc vschnb02.spc vtp_base.spc willett.spc wood1p.spc woodw.spc world.spc world2.spc world3.spc world4.spc world5.spc zed.spc ----------------------------------------------------------- for bound constrained optimization problems path: /netlib/opt/lbfgs_bcm/ ----------------------------------------------------------- Makefile Readme driver1.f driver2.f driver3.f driver4.f routines.f ----------------------------------------------------------- for unconstrained optimization problems path: /netlib/opt/lbfgs_um/ ----------------------------------------------------------- Readme lbfgs.f makefile sdrive.f ----------------------------------------------------------- for nonlinear optimization subject to linear network path: /netlib/opt/lsnno/ ----------------------------------------------------------- .depend README.FIRST a4.sty for use with lsnno.tex lang LaTeX active.f analg.f analys.f anhess.f assgra.f basis.f bcycle.f bding.f blas1.f canli.f cg.f dcmach.f dcopcd.f ddotcd.f deact.f dealag.f dembo.f dependencies dkstem.f dsetcd.f dsetvl.f dtscal.f dxpycd.f elcvx.f elfnct.f elhqn.f elint.f endprt.f exflag.f exmain.f fapbep.f fdelgf.f fdelhf.f fdelhg.f fdingf.f fdinhf.f fdinhg.f fgh0.f gathr0.f getdbl.f gxba.f gxbdg.f gxcon.f gxdej.f gxdeja.f gxfix.f gxnb.f gxnbl.f gxnbu.f gxndis.f gxsu.f hessid.f hpivot.f hrgra.f inelst.f inptst.f inschk.f inset.f inset0.f intprt.f invpss.f inxst.f isetcd.f isetvl.f lagmul.f lnsrch.f lsnno.f lsnno.tex ltcmvp.f makefile mbst.f mxflow.f nbstat.f normrg.f optim.f pcg.f pivot.f prcond.f prod.f psprdt.f qatst.f range.f rg.f rgrad.f rhs.f robs.f scattr.f scbfgs.f scrk1.f second.f selhqn.f selint.f setdbl.f simplx.f snelcv.f snxbdg.f snxcon.f snxdej.f snxdja.f snxnds.f status.f super.f sxba.f sxbdg.f sxcon.f sxdej.f sxdeja.f sxnbl.f sxnbu.f sxndis.f sxsu.f tblock.f testfs.f update.f updtfl.f wkorg.f xlower.f xpdbs.f xupper.f ----------------------------------------------------------- for Maximum Likelihood and Quasi-Likelihood path: /netlib/opt/nlr/ ----------------------------------------------------------- # The files in this directory are associated with # Subroutines for Maximum Likelihood and Quasi-Likelihood # Estimation of Parameters in Nonlinear Regression Models # by David S. Bunch (UC Davis), David M. Gay (AT&T Bell # Laboratories), and Roy E. Welsch (MIT) # which has been submitted to ACM Transactions on Mathematical Software. # For now, you can get Postscript for this paper by asking # netlib@research.att.com to # send 91-13 from research/nam oindex The former "index from opt/nlr" is now "oindex from opt/nlr". It contains the following information in a format you may find easier to read. makefile for Compiles and runs all tests. makefile.gla for Alternate makefile that creates a library. ### DOUBLE-PRECISON SOURCE (recommended if your single # precision has only 32 bits, particularly if you use # finite differences): dmdc.f0 for Supplies machine-dependent constants; edit into dmdc.f . dglfg.f for Top-level routines DGLG, DGLF, DRGLG (no bounds), followed by routines they call that are not in dgletc.f . dglfgb.f for Top-level routines DGLGB, DGLFB, DRGLGB (simple bounds), followed by routines they call that are not in dgletc.f . dgletc.f for Routines needed whether or not there are simple bounds. madsen.f for Simple example program, no bounds. Needs dmdc.f, dglfg.f, dgletc.f . madsenb.f for Simple test program, variant of madsen.f with bounds. Needs dmdc.f, dglfgb.f, dgletc.f . dpmain.f for General test program PMAIN. Needs dmdc.f, dglfg.f, dglfgb.f, dgletc.f, and mecdf.f . mecdf.f for Computes approximation to multivariate normal cumulative distribution function (uses Mendell-Elston approximation.) mlmnp.f for Program MLMNP for linear-in-parameter multinomial probit models, no bounds. Needs dmdc.f, dglfg.f, dgletc.f, mecdf.f, mnpsubs.f . mlmnpb.f for Program MLMNPB for linear-in-parameter multinomial probit models with simple bounds. Needs dmdc.f, dglfgb.f, dgletc.f, mecdf.f, mnpsubs.f . mnpsubs.f for Needed by mlmnp.f and mlmnpb.f . ### TEST DATA mlmnp.dat/ for Bundle of test data (files 16-21 of README) for programs MLMNP and MLMNPB. pmain.in for Input for PMAIN (from Gay & Welsch, 1988). #### SINGLE-PRECISION SOURCE (and corresponding # double-precision source file names): # smdc.f0 dmdc.f0 # sglfg.f dglfg.f # sglfgb.f dglfgb.f # sgletc.f dgletc.f # smadsen.f madsen.f # smadsenb.f madsenb.f # spmain.f pmain.f # smecdf.f mecdf.f # smlmnp.f mlmnp.f # smlmnpb.f mlmnpb.f # smnpsubs.f mnpsubs.f smdc.f0 for single-precision version of dmdc.f0 sglfg.f for single-precision version of dglfg.f sglfgb.f for single-precision version of dglfgb.f sgletc.f for single-precision version of dgletc.f smadsen.f for single-precision version of madsen.f smadsenb.f for single-precision version of madsenb.f spmain.f for single-precision version of pmain.f smecdf.f for single-precision version of mecdf.f smlmnp.f for single-precision version of mlmnp.f smlmnpb.f for single-precision version of mlmnpb.f smnpsubs.f for single-precision version of mnpsubs.f #### SAMPLE OUTPUTS, DOUBLE PRECISION (from an SGI computer, with # compilation by f2c and cc): madsen.sgb/ Bundle of output from madsen.f and madsenb.f . pmain.sgi for Output from PMAIN on input pmain.in . mlmnp.sgb/ for Bundle of output from MLMNP and MLMNPB on mlmnp.dat . #### SAMPLE OUTPUTS, SINGLE PRECISION (from an SGI computer, with # compilation by f2c and cc): smadsen.sgb/ for single-precision sample output spmain.sgi for single-precision sample output smlmnp.sgb/ for single-precision sample output #### POSTSCRIPT mnpdoc.ps for Postscript for "MLMNP and MLMNPB: Fortran Programs for Maximum Likelihood Estimation of Linear-in-Parameter Multinomial Probit Models" by David S. Bunch. usage.ps for Postscript for "Driver PMAIN for DGL[FG][B ]", by David M. Gay. README readme ----------------------------------------------------------- Bundle of output from madsen.f and madsenb.f . path: /netlib/opt/nlr/madsen.sgb/ ----------------------------------------------------------- madsen.out madsenb.out ----------------------------------------------------------- for Bundle of test data (files 16-21 of README) for path: /netlib/opt/nlr/mlmnp.dat/ ----------------------------------------------------------- daganzo.fu2 mnpex1.fu1 mnpex2.fu1 rent.fu2 rent1.fu1 rent2.fu1 ----------------------------------------------------------- for Bundle of output from MLMNP and MLMNPB on path: /netlib/opt/nlr/mlmnp.sgb/ ----------------------------------------------------------- mnpex1.out mnpex1b.out mnpex2.out mnpex2b.out rent1.out rent1b.out rent2.out rent2b.out ----------------------------------------------------------- for single-precision sample output path: /netlib/opt/nlr/smadsen.sgb/ ----------------------------------------------------------- smadsen.out smadsenb.out ----------------------------------------------------------- for single-precision sample output path: /netlib/opt/nlr/smlmnp.sgb/ ----------------------------------------------------------- smnpex1.out smnpex1b.out smnpex2.out smnpex2b.out srent1.out srent1b.out srent2.out srent2b.out ----------------------------------------------------------- by Rod Bain path: /netlib/opt/nnes/ ----------------------------------------------------------- abmul.f ascalf.f ascalx.f atamul.f ataov.f atbmul.f atvov.f avmul.f bakdif.f bnddif.f broyfa.f broyun.f cholde.f chsolv.f condno.f delcau.f deufls.f dogleg.f ex1.f ex2.f fcnevl.f fordif.f gradf.f hlpchk.f initch.f innerp.f jaccd.f jacfd.f jacobi.f jacrot.f line.f llfa.f llun.f lsolv.f ltsolv.f machar.f matcop.f matprt.f maxst.f mdr.f nersl.f nestop.f nnes.f nnesdr.f nstpfa.f nstpun.f olhelp.f onenrm.f qform.f qmin.f qrdcom.f qrsolv.f qrupda.f rcdprt.f rod.f rsolv.f rtrmul.f setup.f title.f trstup.f twonrm.f update.f utbmul.f utumul.f uvmul.f ----------------------------------------------------------- by Tom Rowan path: /netlib/opt/subplex/ ----------------------------------------------------------- Makefile README calcc.f dasum.f daxpy.f dcopy.f demo.f demo.in dist.f dscal.f evalf.f fstats.f newpt.f order.f partx.f setstp.f simplx.f sortd.f start.f subopt.f subplx.f ----------------------------------------------------------- by Stephen G. Nash path: /netlib/opt/tn/ ----------------------------------------------------------- README blas.f mainc.f mainc.out maincb.f maincb.out mainfc.f mainfc.out mains.f mains.out mainsb.f mainsb.out tn.f ----------------------------------------------------------- by Phillipe Toint path: /netlib/opt/ve08/ ----------------------------------------------------------- README ve08ad.f ve08ts.f ve08ts.out ----------------------------------------------------------- for parallel programming system. path: /netlib/p4/ ----------------------------------------------------------- p4-manual.ps for The postscript for the p4 User's Guide size 275 kB p4-refcard.ps for A reference card for the p4 functions # The following files are available only by ftp, not by email p4-1.3/ for programming a variety of parallel machines in C and Fortran size 380 kB upshot/ for The upshot logfile visualization system size 345 kB p4-paper.ps for A journal article on p4 size 282 kB readme ----------------------------------------------------------- for programming a variety of parallel machines in C path: /netlib/p4/p4-1.3/ ----------------------------------------------------------- CHANGES DISCLAIMER Makefile OPTIONS README alog/ bin/ contrib/ contrib_f/ doc/ include/ lib/ lib_f/ messages/ messages_f/ misc/ monitors/ servers/ usc/ util/ ----------------------------------------------------------- path: /netlib/p4/p4-1.3/alog/ ----------------------------------------------------------- README README_ALOG adjlogs.c alog.c alog.h alog_evntdfs.h alogf.c makefile.proto mergelogs.c ----------------------------------------------------------- path: /netlib/p4/p4-1.3/bin/ ----------------------------------------------------------- README format kill_servers killipc killp4 kj listener_p4.c makefile.proto makefuncs makefuncs.tags start_servers ----------------------------------------------------------- path: /netlib/p4/p4-1.3/contrib/ ----------------------------------------------------------- README bcast.c bcast.pg lm.h lm.pg lm1_master.c lm1_slave.c lm_master.c lm_slave.c makefile.proto simpglob.c slave_main.c ----------------------------------------------------------- path: /netlib/p4/p4-1.3/contrib_f/ ----------------------------------------------------------- README comm_master.f comm_slave.f fslave_main.f makefile.proto norm_master.f norm_slave.f pi.f pi.pg ----------------------------------------------------------- path: /netlib/p4/p4-1.3/doc/ ----------------------------------------------------------- README latexinfo-1.2.sty makefile.proto p4.1 p4.bib p4.info p4.info-1 p4.info-2 p4.info-3 p4.tex p4.txt p4refcard.ps ----------------------------------------------------------- path: /netlib/p4/p4-1.3/include/ ----------------------------------------------------------- makefile.proto ----------------------------------------------------------- path: /netlib/p4/p4-1.3/lib/ ----------------------------------------------------------- listener_p4.c makefile.proto p4.h p4_MD.c p4_MD.h p4_alloc.c p4_args.c p4_bm.c p4_broadcast.c p4_debug.c p4_defs.h p4_error.c p4_funcs.h p4_globals.c p4_globals.h p4_macros.h p4_mon.c p4_mon.h p4_patchlevel.h p4_procgroup.c p4_rm.c p4_secure.c p4_shmem_sr.c p4_sock_conn.c p4_sock_cr.c p4_sock_list.c p4_sock_sr.c p4_sock_util.c p4_sock_util.h p4_sr.h p4_sys.h p4_sys_funcs.h p4_tsr.c p4_utils.c ----------------------------------------------------------- path: /netlib/p4/p4-1.3/lib_f/ ----------------------------------------------------------- README makefile.proto p4_args.c p4_fargs.f p4_fmaster.c p4_fort.c p4_fort.h p4f.h ----------------------------------------------------------- path: /netlib/p4/p4-1.3/messages/ ----------------------------------------------------------- README grid_comm.c grid_master.c grid_master.pg grid_slave.c makefile.proto run_delta run_ipsc run_ncube slave_main.c sr1_test.c sr1_test.pg sr_master.c sr_slave.c sr_test.c sr_test.pg sr_user.h systest.c systest.pg vec_master.c vec_slave.c ----------------------------------------------------------- path: /netlib/p4/p4-1.3/messages_f/ ----------------------------------------------------------- README makefile.proto simpglob.f simpglob.pg slave_main.f sr1_master.f sr1_master.pg sr1_slave.f sr_log.f sr_log.pg sr_master.f sr_slave.f sr_test.f sr_test.pg ----------------------------------------------------------- path: /netlib/p4/p4-1.3/misc/ ----------------------------------------------------------- README buftest.c buftest.pg dirtest.c dirtest.pg mutual.c procgroup sockperf.c sr_user.h temp1.c temp1.f temp2.f temprunsockdelta ----------------------------------------------------------- path: /netlib/p4/p4-1.3/monitors/ ----------------------------------------------------------- README addtwo.ask.c addtwo.data addtwo.data.big addtwo.gs.c adquad.c adquad.data grid.data grid.shmem.c gridlog.shmem.c makefile.proto procgroup ----------------------------------------------------------- path: /netlib/p4/p4-1.3/servers/ ----------------------------------------------------------- README inetd.entry.base iserv_p4.c killiserv_p4.c makefile.proto serv_p4.c services.entry.base ----------------------------------------------------------- path: /netlib/p4/p4-1.3/usc/ ----------------------------------------------------------- README_USC makefile.proto usc.c usc.h usc_sys.h usctest/ ----------------------------------------------------------- path: /netlib/p4/p4-1.3/usc/usctest/ ----------------------------------------------------------- capcell.c makefile.proto usctest.c usctest2.c ----------------------------------------------------------- path: /netlib/p4/p4-1.3/util/ ----------------------------------------------------------- defs.all install.awk machines makefile.proto ----------------------------------------------------------- for The upshot logfile visualization system path: /netlib/p4/upshot/ ----------------------------------------------------------- Imakefile Makefile README app-defaults bin/ doc/ logfiles/ src/ ----------------------------------------------------------- path: /netlib/p4/upshot/bin/ ----------------------------------------------------------- Imakefile Makefile ----------------------------------------------------------- path: /netlib/p4/upshot/doc/ ----------------------------------------------------------- grid4.ps nwt.ps sam2.ps texput.log upshot.1 upshot.aux upshot.bbl upshot.bib upshot.blg upshot.dvi upshot.log upshot.ps upshot.tex ----------------------------------------------------------- path: /netlib/p4/upshot/logfiles/ ----------------------------------------------------------- grid.16.log grid.sts mv.16.log roo.sts sam_hyp.16.log ----------------------------------------------------------- path: /netlib/p4/upshot/src/ ----------------------------------------------------------- Imakefile Makefile Makefile.sample bl bl2 check.bm comm.sta fontdef.def graphics.c hstripes.bm lslant.bm lslant2.bm lslant3.bm new128.sts rslant.bm rslant2.bm rslant3.bm solid.bm square.bm states.c upshot.c upshot.h upshotxedge.c upshotxhist.c upshotxsum.c vstripes.bm x_graphics.c xedge.c xedge.h xhist.c xhist.h xhist.mf xsum.c xsum.h ----------------------------------------------------------- for graphical display of message-passing path: /netlib/paragraph/ ----------------------------------------------------------- manual.tex for ParaGraph User Guide in Latex format lang tex paragraph/ for ParaGraph distribution, including source code, documentation, and sample trace files pg.man readme for description of ParaGraph short update for list of recent changes to ParaGraph ----------------------------------------------------------- for ParaGraph distribution, including source code, path: /netlib/paragraph/paragraph/ ----------------------------------------------------------- Makefile.386 Makefile.bsdi Makefile.dec Makefile.hp Makefile.ibm Makefile.ncsa Makefile.open Makefile.sgi Makefile.star Makefile.sun3 Makefile.sun4 backwards.c bitmaps.h button.c defaults.h defines.h draw.c expose.c get_event.c get_trace.c hypercube.c keypress.c main.c manual.tex parse.c pg.man pg.update preprocess.c resize.c scan.c short stripes.h tracefiles/ u_count/ u_graph/ u_matrix/ u_sort/ u_stubs/ u_transpose/ ----------------------------------------------------------- path: /netlib/paragraph/paragraph/tracefiles/ ----------------------------------------------------------- README blockcheck.awk blockcheck.old chol.trf converter/ exch.trf fac.trf fans.trf fft.trf fft64.trf flops.trf matrix.trf shuffle.trf sort.trf sparse.trf tachyon.awk tachyon.old tracesort tracesort.old transpose.trf ----------------------------------------------------------- path: /netlib/paragraph/paragraph/tracefiles/converter/ ----------------------------------------------------------- README converter.c defines.h ----------------------------------------------------------- path: /netlib/paragraph/paragraph/u_count/ ----------------------------------------------------------- Makefile.386 Makefile.bsdi Makefile.dec Makefile.hp Makefile.ibm Makefile.ncsa Makefile.open Makefile.sgi Makefile.star Makefile.sun3 Makefile.sun4 u_defines.h u_draw.c u_event.c u_init.c u_preprocess.c u_reinit.c u_reset.c u_scan.c ----------------------------------------------------------- path: /netlib/paragraph/paragraph/u_graph/ ----------------------------------------------------------- Makefile.386 Makefile.bsdi Makefile.dec Makefile.hp Makefile.ibm Makefile.ncsa Makefile.open Makefile.sgi Makefile.star Makefile.sun3 Makefile.sun4 u_defines.h u_draw.c u_event.c u_init.c u_preprocess.c u_reinit.c u_reset.c u_scan.c ----------------------------------------------------------- path: /netlib/paragraph/paragraph/u_matrix/ ----------------------------------------------------------- Makefile.386 Makefile.bsdi Makefile.dec Makefile.hp Makefile.ibm Makefile.ncsa Makefile.open Makefile.sgi Makefile.star Makefile.sun3 Makefile.sun4 u_defines.h u_draw.c u_event.c u_preprocess.c u_reinit.c u_reset.c u_scan.c ----------------------------------------------------------- path: /netlib/paragraph/paragraph/u_sort/ ----------------------------------------------------------- Makefile.386 Makefile.bsdi Makefile.dec Makefile.hp Makefile.ibm Makefile.ncsa Makefile.open Makefile.sgi Makefile.star Makefile.sun3 Makefile.sun4 u_defines.h u_draw.c u_event.c u_init.c u_preprocess.c u_reinit.c u_reset.c u_scan.c ----------------------------------------------------------- path: /netlib/paragraph/paragraph/u_stubs/ ----------------------------------------------------------- Makefile.386 Makefile.bsdi Makefile.dec Makefile.hp Makefile.ibm Makefile.ncsa Makefile.open Makefile.sgi Makefile.star Makefile.sun3 Makefile.sun4 u_draw.c u_event.c u_init.c u_preprocess.c u_reinit.c u_reset.c u_scan.c ----------------------------------------------------------- path: /netlib/paragraph/paragraph/u_transpose/ ----------------------------------------------------------- Makefile.386 Makefile.bsdi Makefile.dec Makefile.hp Makefile.ibm Makefile.ncsa Makefile.open Makefile.sgi Makefile.star Makefile.sun3 Makefile.sun4 u_defines.h u_draw.c u_event.c u_init.c u_preprocess.c u_reinit.c u_reset.c u_scan.c ----------------------------------------------------------- for exploring the floating point system on your path: /netlib/paranoia/ ----------------------------------------------------------- paranoia.c for test a computers floating-point arithmetic, C, 31 July 1986 gams a3, r1, r2 dpara.f for test a computers floating-point arithmetic, Fortran, 31 July 1986 prec double gams a3, r1, r2 spara.f for test a computers floating-point arithmetic, Fortran, 31 July 1986 prec single gams a3, r1, r2 paranoia.b for test a computers floating-point arithmetic, Basic, 25 Jan. 1986 gams a3, r1, r2 paranoia.m2 for test a computers floating-point arithmetic, Modula, 27 January 1986 gams a3, r1, r2 paranoia.p for test a computers floating-point arithmetic, Pascal, 25 February 1988 gams a3, r1, r2 disclaimer ----------------------------------------------------------- for parallel programmming macros for monitors and path: /netlib/parmacs/ ----------------------------------------------------------- balance/ five.liner one.liner readme for overview of parmacs sun/ for *COMPLETE* Sun-3 version of the macros and test problems. last update april 21, 1988. alliant/ for The alliant version of the machine-dependent macros and supporting subroutines baldep.shr/ for The Sequent version of the machine-dependent macros and supporting subroutines encdep.shr/ for The Encore version of the machine-dependent macros and supporting subroutines cray.shr/ for The Cray-2 version of the machine-dependent macros and supporting subroutines test.c vaxdep.shr/ for The Vax (Berkeley Unix) version of the machine-dependent macros and supporting subroutines cubedep.shr/ for The intel Hypercube version of the machine-dependent macros and supporting subroutines sysvdep.shr/ for The AT&T System V version (for the 3B series) of the machine-dependent macros and supporting subroutines genlib.shr/ for The machine-independent macros and supporting subroutines, required for all versions not needed for the versions marked COMPLETE genpro.shr/ for The example programs, machine independent not needed for the versions marked COMPLETE instructions for Instructions for unbundling the above files ----------------------------------------------------------- for The alliant version of the machine-dependent path: /netlib/parmacs/alliant/ ----------------------------------------------------------- monmacs/ ----------------------------------------------------------- path: /netlib/parmacs/alliant/monmacs/ ----------------------------------------------------------- lib/ pub/ ----------------------------------------------------------- path: /netlib/parmacs/alliant/monmacs/lib/ ----------------------------------------------------------- c.m4.monmacs c.m4.smacs cputm.c inmain makefile rec.U send.U shmem.U sox.U trace.c xptrace.c ----------------------------------------------------------- path: /netlib/parmacs/alliant/monmacs/pub/ ----------------------------------------------------------- README chap2/ chap3/ chap4/ makefile ser.U services trash ----------------------------------------------------------- path: /netlib/parmacs/alliant/monmacs/pub/chap2/ ----------------------------------------------------------- addtwo.ask.U addtwo.data addtwo.gs.U event_defs grid.ch2.U makefile mat.data process_defs ----------------------------------------------------------- path: /netlib/parmacs/alliant/monmacs/pub/chap3/ ----------------------------------------------------------- grid.comm.U grid.data grid.master.U grid.procgroup.U grid.slave.U makefile sort.data sort.master.U sort.merge.U sort.procgroup.U sort.sort.U srtest.data srtest.master.U srtest.procgroup.U srtest.procgroup.r.U srtest.slave.U ----------------------------------------------------------- path: /netlib/parmacs/alliant/monmacs/pub/chap4/ ----------------------------------------------------------- grid.comm.U grid.master.U grid.procgroup.U grid.procgroup.r.U grid.slave.U makefile master.U slave.U stsp.comm.U stsp.pent.U stsp.procgroup.U stsp.procgroup.r.U ----------------------------------------------------------- path: /netlib/parmacs/balance/ ----------------------------------------------------------- monmacs/ ----------------------------------------------------------- path: /netlib/parmacs/balance/monmacs/ ----------------------------------------------------------- lib/ pub/ ----------------------------------------------------------- path: /netlib/parmacs/balance/monmacs/lib/ ----------------------------------------------------------- c.m4.monmacs c.m4.smacs cputm.c inmain makefile rec.U send.U shmem.U sox.U trace.c xptrace.c ----------------------------------------------------------- path: /netlib/parmacs/balance/monmacs/pub/ ----------------------------------------------------------- README chap2/ chap3/ chap4/ makefile ser.U services trash ----------------------------------------------------------- path: /netlib/parmacs/balance/monmacs/pub/chap2/ ----------------------------------------------------------- addtwo.ask.U addtwo.data addtwo.gs.U event_defs grid.ch2.U makefile mat.data process_defs tracefile ----------------------------------------------------------- path: /netlib/parmacs/balance/monmacs/pub/chap3/ ----------------------------------------------------------- grid.comm.U grid.data grid.master.U grid.procgroup.U grid.slave.U makefile sort.data sort.master.U sort.merge.U sort.procgroup.U sort.sort.U srtest.data srtest.master.U srtest.procgroup.U srtest.procgroup.r.U srtest.slave.U ----------------------------------------------------------- path: /netlib/parmacs/balance/monmacs/pub/chap4/ ----------------------------------------------------------- grid.comm.U grid.master.U grid.procgroup.U grid.procgroup.r.U grid.slave.U makefile master.U slave.U stsp.comm.U stsp.pent.U stsp.procgroup.U stsp.procgroup.r.U ----------------------------------------------------------- for The Sequent version of the machine-dependent path: /netlib/parmacs/baldep.shr/ ----------------------------------------------------------- monmacs/ ----------------------------------------------------------- path: /netlib/parmacs/baldep.shr/monmacs/ ----------------------------------------------------------- lib/ pub/ ----------------------------------------------------------- path: /netlib/parmacs/baldep.shr/monmacs/lib/ ----------------------------------------------------------- c.m4.monmacs c.m4.smacs cputm.c inmain makefile rec.U send.U shmem.U sox.U trace.c xptrace.c ----------------------------------------------------------- path: /netlib/parmacs/baldep.shr/monmacs/pub/ ----------------------------------------------------------- README chap2/ chap3/ chap4/ makefile ser.U services trash ----------------------------------------------------------- path: /netlib/parmacs/baldep.shr/monmacs/pub/chap2/ ----------------------------------------------------------- addtwo.ask.U addtwo.data addtwo.gs.U event_defs grid.ch2.U makefile mat.data process_defs tracefile ----------------------------------------------------------- path: /netlib/parmacs/baldep.shr/monmacs/pub/chap3/ ----------------------------------------------------------- grid.comm.U grid.data grid.master.U grid.procgroup.U grid.slave.U makefile sort.data sort.master.U sort.merge.U sort.procgroup.U sort.sort.U srtest.data srtest.master.U srtest.procgroup.U srtest.procgroup.r.U srtest.slave.U ----------------------------------------------------------- path: /netlib/parmacs/baldep.shr/monmacs/pub/chap4/ ----------------------------------------------------------- grid.comm.U grid.master.U grid.procgroup.U grid.procgroup.r.U grid.slave.U makefile master.U slave.U stsp.comm.U stsp.pent.U stsp.procgroup.U stsp.procgroup.r.U ----------------------------------------------------------- for The Cray-2 version of the machine-dependent path: /netlib/parmacs/cray.shr/ ----------------------------------------------------------- mpbook.cray/ ----------------------------------------------------------- path: /netlib/parmacs/cray.shr/mpbook.cray/ ----------------------------------------------------------- README c.m4.monmacs c.m4.smacs grid.ch2.U makefile rec.U send.U shmem.U sr2.U srtest.m.U srtest.p.U srtest.s.U ----------------------------------------------------------- for The intel Hypercube version of the path: /netlib/parmacs/cubedep.shr/ ----------------------------------------------------------- disk/ ----------------------------------------------------------- path: /netlib/parmacs/cubedep.shr/disk/ ----------------------------------------------------------- c.m4.monmacs.H c.m4.monmacs.N cnode.def cputm.c grid.master.H grid.proc.H grid.slave.N makefile nodemem.c sed.strip shmem.c sr.mast.H sr.proc.H sr.slave.N srdump.U trace.U ----------------------------------------------------------- for The Encore version of the machine-dependent path: /netlib/parmacs/encdep.shr/ ----------------------------------------------------------- encore/ ----------------------------------------------------------- path: /netlib/parmacs/encdep.shr/encore/ ----------------------------------------------------------- lib/ pub/ ----------------------------------------------------------- path: /netlib/parmacs/encdep.shr/encore/lib/ ----------------------------------------------------------- c.m4.monmacs cputm.U inmain makefile shmem.U trace.c ----------------------------------------------------------- path: /netlib/parmacs/encdep.shr/encore/pub/ ----------------------------------------------------------- chap2/ chap3/ chap4/ extras/ makefile trash ----------------------------------------------------------- path: /netlib/parmacs/encdep.shr/encore/pub/chap2/ ----------------------------------------------------------- makefile ----------------------------------------------------------- path: /netlib/parmacs/encdep.shr/encore/pub/chap3/ ----------------------------------------------------------- makefile ----------------------------------------------------------- path: /netlib/parmacs/encdep.shr/encore/pub/chap4/ ----------------------------------------------------------- makefile ----------------------------------------------------------- path: /netlib/parmacs/encdep.shr/encore/pub/extras/ ----------------------------------------------------------- makefile ----------------------------------------------------------- for The machine-independent macros and supporting path: /netlib/parmacs/genlib.shr/ ----------------------------------------------------------- lib/ ----------------------------------------------------------- path: /netlib/parmacs/genlib.shr/lib/ ----------------------------------------------------------- c.m4.smacs rec.U send.U sox.U xptrace.c ----------------------------------------------------------- for The example programs, machine independent not path: /netlib/parmacs/genpro.shr/ ----------------------------------------------------------- pub/ ----------------------------------------------------------- path: /netlib/parmacs/genpro.shr/pub/ ----------------------------------------------------------- README chap2/ chap3/ chap4/ ser.U services ----------------------------------------------------------- path: /netlib/parmacs/genpro.shr/pub/chap2/ ----------------------------------------------------------- addtwo.ask.U addtwo.data addtwo.gs.U event_defs grid.ch2.U mat.data process_defs ----------------------------------------------------------- path: /netlib/parmacs/genpro.shr/pub/chap3/ ----------------------------------------------------------- grid.comm.U grid.data grid.master.U grid.procgroup.U grid.procgroup.r.U grid.slave.U sort.data sort.master.U sort.merge.U sort.procgroup.U sort.sort.U srtest.data srtest.master.U srtest.procgroup.U srtest.procgroup.r.U srtest.slave.U ----------------------------------------------------------- path: /netlib/parmacs/genpro.shr/pub/chap4/ ----------------------------------------------------------- grid.comm.U grid.master.U grid.procgroup.U grid.procgroup.r.U grid.slave.U master.U slave.U stsp.comm.U stsp.pent.U stsp.procgroup.U stsp.procgroup.r.U ----------------------------------------------------------- for *COMPLETE* Sun-3 version of the macros and test path: /netlib/parmacs/sun/ ----------------------------------------------------------- monmacs/ ----------------------------------------------------------- path: /netlib/parmacs/sun/monmacs/ ----------------------------------------------------------- lib/ pub/ ----------------------------------------------------------- path: /netlib/parmacs/sun/monmacs/lib/ ----------------------------------------------------------- c.m4.monmacs c.m4.smacs cputm.c inmain makefile rec.U send.U shmem.U sox.U sysv.mp.subs.U trace.c xptrace.c ----------------------------------------------------------- path: /netlib/parmacs/sun/monmacs/pub/ ----------------------------------------------------------- README chap2/ chap3/ chap4/ makefile ser.U services trash ----------------------------------------------------------- path: /netlib/parmacs/sun/monmacs/pub/chap2/ ----------------------------------------------------------- addtwo.ask.U addtwo.data addtwo.gs.U event_defs grid.ch2.U makefile mat.data process_defs tracefile ----------------------------------------------------------- path: /netlib/parmacs/sun/monmacs/pub/chap3/ ----------------------------------------------------------- grid.comm.U grid.data grid.master.U grid.procgroup.U grid.slave.U makefile sort.data sort.master.U sort.merge.U sort.procgroup.U sort.sort.U srtest.data srtest.master.U srtest.procgroup.U srtest.procgroup.r.U srtest.slave.U ----------------------------------------------------------- path: /netlib/parmacs/sun/monmacs/pub/chap4/ ----------------------------------------------------------- grid.comm.U grid.master.U grid.procgroup.U grid.procgroup.r.U grid.slave.U makefile master.U slave.U stsp.comm.U stsp.pent.U stsp.procgroup.U stsp.procgroup.r.U ----------------------------------------------------------- for The AT&T System V version (for the 3B series) of path: /netlib/parmacs/sysvdep.shr/ ----------------------------------------------------------- sysv/ ----------------------------------------------------------- path: /netlib/parmacs/sysvdep.shr/sysv/ ----------------------------------------------------------- lib/ pub/ ----------------------------------------------------------- path: /netlib/parmacs/sysvdep.shr/sysv/lib/ ----------------------------------------------------------- c.m4.monmacs c.m4.smacs makefile rec.U send.U shmem.U sox.U sysv.mp.subs.U trace.c ----------------------------------------------------------- path: /netlib/parmacs/sysvdep.shr/sysv/pub/ ----------------------------------------------------------- addtwo.ask.U addtwo.data addtwo.gs.U grid.ch2.U ipckill makefile sort.data sort.mg.U sort.mst.U sort.pg.U sort.sort.U srtest.data srtest.mst.U srtest.pg.U srtest.s1.U ----------------------------------------------------------- for The Vax (Berkeley Unix) version of the path: /netlib/parmacs/vaxdep.shr/ ----------------------------------------------------------- vax/ ----------------------------------------------------------- path: /netlib/parmacs/vaxdep.shr/vax/ ----------------------------------------------------------- lib/ pub/ ----------------------------------------------------------- path: /netlib/parmacs/vaxdep.shr/vax/lib/ ----------------------------------------------------------- c.m4.monmacs c.m4.smacs makefile rec.U send.U shmem.U sox.U trace.c ----------------------------------------------------------- path: /netlib/parmacs/vaxdep.shr/vax/pub/ ----------------------------------------------------------- README addtwo.ask.U addtwo.data addtwo.gs.U event_defs grid.master.r.U grid.procgroup.r.U grid.slave.r.U makefile process_defs ser.U sort.data sort.master.U sort.merge.U sort.procgroup.U sort.sort.U srtest.data srtest.master.r.U srtest.procgroup.3mach srtest.procgroup.U srtest.procgroup.r.U srtest.slave.U srtest.slave.r.U ----------------------------------------------------------- for miscellaneous codes written in Pascal path: /netlib/pascal/ ----------------------------------------------------------- cnm/ for algorithms to accompany "Compact Numerical Methods" by "John C. Nash" # gzip-compressed tar file, not suitable for email (until we get MIME working inside netlib). Meanwhile, use ftp. ----------------------------------------------------------- for algorithms to accompany "Compact Numerical path: /netlib/pascal/cnm/ ----------------------------------------------------------- alg01.pas alg02.pas alg03.pas alg03a.pas alg04.pas alg05.pas alg06.pas alg07.pas alg08.pas alg09.pas alg10.pas alg11.pas alg12.pas alg13.pas alg14.pas alg15.pas alg16.pas alg17.pas alg18.pas alg19.pas alg20.pas alg21.pas alg22.pas alg23.pas alg24.pas alg25.pas alg26.pas alg27.pas calceps.pas cnm3test.bat cnm5test.bat constyp3.def constyp5.def constype.def cubefn.pas dr0102.pas dr0102x dr03.pas dr03a.pas dr03ax dr03x dr04.pas dr04x dr0506.pas dr0506x dr0506xa dr0506xb dr0708.pas dr0708x dr09.pas dr09x dr10.pas dr10x dr13.pas dr13x dr14.pas dr14x dr15.pas dr15x dr1617.pas dr1617x dr1618.pas dr1618x dr1920.pas dr1920rx dr19x dr21.pas dr21x dr22.pas dr22x dr23.pas dr23a.pas dr23ax dr23x dr24ii.pas dr24iix dr24le.pas dr24lex dr24ls.pas dr24lsx dr25.pas dr25x dr26.pas dr26x dr27.pas dr27x errata.cnm ex0102.cnm ex03.cnm ex03a.cnm ex04.cnm ex044-2.cnm ex0506.cnm ex0506s.cnm ex0708.cnm ex09.cnm ex10.cnm ex13.cnm ex13a.cnm ex14.cnm ex14a.cnm ex15.cnm ex15a.cnm ex1617.cnm ex1618.cnm ex19.cnm ex1920.cnm ex1920j.cnm ex21.cnm ex22.cnm ex23.cnm ex23a.cnm ex24ii.cnm ex24le.cnm ex24ls.cnm ex24ls1.cnm ex25.cnm ex26.cnm ex26a.cnm ex27j.cnm ex27r.cnm filelist.cnm fnmin.pas genevres.pas getobsn.pas htanfn.pas jjacf.pas logistic.pas matcopy.pas matmul.pas matrixin.pas psvdres.pas quadfn.pas rayquo.pas readme.cnm resids.pas rosen.pas spendfn.pas startup.pas startup3.pas startup5.pas svdtst.pas tdstamp.pas tdstamp3.pas tdstamp5.pas turbo.cnm turbo3.cnm turbo5.cnm usetp3.bat usetp5.bat vectorin.pas warning.dir ----------------------------------------------------------- for partial differential equation packages path: /netlib/pdes/ ----------------------------------------------------------- mgghat/ for 2D elliptic partial differential equations on polygonal domains alg adaptive refinement and multigrid using linear, quadratic or cubic elements by William F. Mitchell ref SIAM J. Sci. Statist. Comput. 13, 1992, pp. 146-167. gams I2b1a prec single real age research lang mostly FORTRAN 77, some C see many related packages at ftp://na.cs.yale.edu/mgnet claw/ for hyperbolic systems of conservation laws by Randall J. LeVeque lang Fortran prec double real age research ----------------------------------------------------------- for hyperbolic systems of conservation laws path: /netlib/pdes/claw/ ----------------------------------------------------------- # This collection is large enough that ftp or http is probably the # best way to do bulk download. For example, try # ftp netlib.att.com # binary # cd netlib/pdes # get claw.tar # or use a Web browser on http://netlib.att.com/netlib/pdes/claw # or, if email is all you have, # mail netlib@research.att.com # send pdes/claw/doc.shar # send pdes/claw/clawpack.shar doc/ for clawpack documentation clawpack/ for clawpack source code applications/ for examples of clawpack in use COPYING for copyright notice readme ----------------------------------------------------------- for examples of clawpack in use path: /netlib/pdes/claw/applications/ ----------------------------------------------------------- README acoustics/ euler/ advection/ burgers/ ----------------------------------------------------------- path: /netlib/pdes/claw/applications/acoustics/ ----------------------------------------------------------- 1d/ 2d/ ----------------------------------------------------------- path: /netlib/pdes/claw/applications/acoustics/1d/ ----------------------------------------------------------- accuracy/ rp/ ----------------------------------------------------------- path: /netlib/pdes/claw/applications/acoustics/1d/accuracy/ ----------------------------------------------------------- README compile data.1 data.2 data.3 driver.f errs.2 errs.3 ic.f plotq.m qtrue1.f p0.f errs.1 ----------------------------------------------------------- path: /netlib/pdes/claw/applications/acoustics/1d/rp/ ----------------------------------------------------------- rp1ac.f ----------------------------------------------------------- path: /netlib/pdes/claw/applications/acoustics/2d/ ----------------------------------------------------------- constant/ varying/ rp/ ----------------------------------------------------------- path: /netlib/pdes/claw/applications/acoustics/2d/constant/ ----------------------------------------------------------- accuracy/ piston/ ----------------------------------------------------------- path: /netlib/pdes/claw/applications/acoustics/2d/constant/accuracy/ ----------------------------------------------------------- README data compile contourplot.m p0.f driver.f ic1.f ic2.f interp.f qtrue2.f scatterplot.m src1rad.f errs ----------------------------------------------------------- path: /netlib/pdes/claw/applications/acoustics/2d/constant/piston/ ----------------------------------------------------------- bc2pist.f driver.f ic.f compile data README src2cyl.f plotp.m ----------------------------------------------------------- path: /netlib/pdes/claw/applications/acoustics/2d/rp/ ----------------------------------------------------------- rp2Aac.f rp2Bac.f rp2Aacv.f rp2Bacv.f ----------------------------------------------------------- path: /netlib/pdes/claw/applications/acoustics/2d/varying/ ----------------------------------------------------------- planewave/ piston/ ----------------------------------------------------------- path: /netlib/pdes/claw/applications/acoustics/2d/varying/piston/ ----------------------------------------------------------- driver.f data compile ic.f bc2pist.f README data.test plotp.m src2cyl.f ----------------------------------------------------------- path: /netlib/pdes/claw/applications/acoustics/2d/varying/planewave/ ----------------------------------------------------------- bc2plwv.f driver.f ic.f compile data README bc2plwv.old qtrue2.f plotp.m ----------------------------------------------------------- path: /netlib/pdes/claw/applications/advection/ ----------------------------------------------------------- 2d/ 1d/ ----------------------------------------------------------- path: /netlib/pdes/claw/applications/advection/1d/ ----------------------------------------------------------- rp/ inflow/ ----------------------------------------------------------- path: /netlib/pdes/claw/applications/advection/1d/inflow/ ----------------------------------------------------------- README compile data driver.f ic.f qtrue1.f bc1inf.f plotq.m ----------------------------------------------------------- path: /netlib/pdes/claw/applications/advection/1d/rp/ ----------------------------------------------------------- rp1ad.f ----------------------------------------------------------- path: /netlib/pdes/claw/applications/advection/2d/ ----------------------------------------------------------- const/ curvilinear/ swirl/ rp/ groundwater/ ----------------------------------------------------------- path: /netlib/pdes/claw/applications/advection/2d/const/ ----------------------------------------------------------- driver.f fdisc.f ic.f xvel.f yvel.f compile data README plotq.m ----------------------------------------------------------- path: /netlib/pdes/claw/applications/advection/2d/curvilinear/ ----------------------------------------------------------- cylinder/ wiggly/ ----------------------------------------------------------- path: /netlib/pdes/claw/applications/advection/2d/curvilinear/cylinder/ ----------------------------------------------------------- compile driver.f fdisc.f README setxpyp.f setgrid.f xpvel.f ypvel.f plotq.m bc2pery.f out2c.f data.2 data.1 test.m ic.f ----------------------------------------------------------- path: /netlib/pdes/claw/applications/advection/2d/curvilinear/wiggly/ ----------------------------------------------------------- bc2pery.f driver.f fdisc.f out2c.f ic.f README setgrid.f setxpyp.f xpvel.f ypvel.f compile data plotq.m bc2new.f ----------------------------------------------------------- path: /netlib/pdes/claw/applications/advection/2d/groundwater/ ----------------------------------------------------------- copper95/ ----------------------------------------------------------- path: /netlib/pdes/claw/applications/advection/2d/groundwater/copper95/ ----------------------------------------------------------- driver.f ic.f out2.f rho.f README plotqcolor.m setvel.f shape3.m compile data ux.data plotq.m vy.data ----------------------------------------------------------- path: /netlib/pdes/claw/applications/advection/2d/rp/ ----------------------------------------------------------- rp2Aad2.f rp2Aad3.f rp2Bad.f rp2Aad1.f rp2Aad4.f ----------------------------------------------------------- path: /netlib/pdes/claw/applications/advection/2d/swirl/ ----------------------------------------------------------- README compile driver.f fdisc.f ic.f xvel.f yvel.f data plotq.m ----------------------------------------------------------- path: /netlib/pdes/claw/applications/burgers/ ----------------------------------------------------------- 2d/ 1d/ ----------------------------------------------------------- path: /netlib/pdes/claw/applications/burgers/1d/ ----------------------------------------------------------- sine2n/ rp/ ----------------------------------------------------------- path: /netlib/pdes/claw/applications/burgers/1d/rp/ ----------------------------------------------------------- rp1bu.f ----------------------------------------------------------- path: /netlib/pdes/claw/applications/burgers/1d/sine2n/ ----------------------------------------------------------- driver.f compile plotq.m data README ic.f ----------------------------------------------------------- path: /netlib/pdes/claw/applications/burgers/2d/ ----------------------------------------------------------- rp/ pwconst/ ----------------------------------------------------------- path: /netlib/pdes/claw/applications/burgers/2d/pwconst/ ----------------------------------------------------------- README compile data driver.f plotq.m ic.f ----------------------------------------------------------- path: /netlib/pdes/claw/applications/burgers/2d/rp/ ----------------------------------------------------------- rp2Abu.f rp2Bbu.f ----------------------------------------------------------- path: /netlib/pdes/claw/applications/euler/ ----------------------------------------------------------- 1d/ 2d/ ----------------------------------------------------------- path: /netlib/pdes/claw/applications/euler/1d/ ----------------------------------------------------------- rp/ pbc/ shocktube/ ----------------------------------------------------------- path: /netlib/pdes/claw/applications/euler/1d/pbc/ ----------------------------------------------------------- driver.f compile ic.f data README plotq.m ----------------------------------------------------------- path: /netlib/pdes/claw/applications/euler/1d/rp/ ----------------------------------------------------------- rp1eu.f ----------------------------------------------------------- path: /netlib/pdes/claw/applications/euler/1d/shocktube/ ----------------------------------------------------------- driver.f ic.f compile plotq.m data README ----------------------------------------------------------- path: /netlib/pdes/claw/applications/euler/2d/ ----------------------------------------------------------- accuracy/ radial/ rp/ ----------------------------------------------------------- path: /netlib/pdes/claw/applications/euler/2d/accuracy/ ----------------------------------------------------------- README compile1 compile2 contourplot.m data1.1 data1.2 data1.3 data1.4 data2 driver.f errs1.1 errs1.2 errs1.3 errs1.4 errs2 ic1.f ic2.f interp.f qtrue2.f rho1.f rho2.f rho3.f scatterplot.m src1rad.f ----------------------------------------------------------- path: /netlib/pdes/claw/applications/euler/2d/radial/ ----------------------------------------------------------- driver.f data.1 compile data.2 README ic2rpc.f fdisc.f pcontour.m pmesh.m rhomesh.m rhocontour.m ----------------------------------------------------------- path: /netlib/pdes/claw/applications/euler/2d/rp/ ----------------------------------------------------------- rp2Aeu.f rp2Beu.f ----------------------------------------------------------- for clawpack source code path: /netlib/pdes/claw/clawpack/ ----------------------------------------------------------- Conversion Changes Thanks COPYING catenate README 2d/ limiters/ 1d/ matlab/ ----------------------------------------------------------- path: /netlib/pdes/claw/clawpack/1d/ ----------------------------------------------------------- claw1/ bc/ example/ misc/ ----------------------------------------------------------- path: /netlib/pdes/claw/clawpack/1d/bc/ ----------------------------------------------------------- bc1ex0.f bc1wall.f bc1per.f bc1rad.f bc1ex1.f bc1ex2.f bc1inf.f ----------------------------------------------------------- path: /netlib/pdes/claw/clawpack/1d/claw1/ ----------------------------------------------------------- copyq1.f step1.f claw1.f README ----------------------------------------------------------- path: /netlib/pdes/claw/clawpack/1d/example/ ----------------------------------------------------------- driver.f compile data README ic.f rp1bu.f test.101 test.102 test.103 test.100 plotq.m ----------------------------------------------------------- path: /netlib/pdes/claw/clawpack/1d/misc/ ----------------------------------------------------------- dump1.f src1xx.f error1.f out1.f out1eu.f out1xt.f rstrt1.f ----------------------------------------------------------- path: /netlib/pdes/claw/clawpack/2d/ ----------------------------------------------------------- claw2/ bc/ misc/ example/ ----------------------------------------------------------- path: /netlib/pdes/claw/clawpack/2d/bc/ ----------------------------------------------------------- bc2ex0.f README bc2ex1.f bc2per.f bc2rad.f ----------------------------------------------------------- path: /netlib/pdes/claw/clawpack/2d/claw2/ ----------------------------------------------------------- claw2.f flux2.f step2.f copyq2.f ----------------------------------------------------------- path: /netlib/pdes/claw/clawpack/2d/example/ ----------------------------------------------------------- README compile driver.f test.100 test.101 out2sc1.f rp2Asc1.f rp2Bsc1.f ic.f plotq.m ----------------------------------------------------------- path: /netlib/pdes/claw/clawpack/2d/misc/ ----------------------------------------------------------- cellave.f dump2.f rstrt2.f out2eu.f out2.f err2.f src2xx.f ----------------------------------------------------------- path: /netlib/pdes/claw/clawpack/limiters/ ----------------------------------------------------------- limiter.f philim.f ----------------------------------------------------------- path: /netlib/pdes/claw/clawpack/matlab/ ----------------------------------------------------------- plotq1.m README readv.m readq2.m readq1.m plot1xt.m plot1sc.m plot1eu.m query.m plotq2.m yrbcolormap.m ----------------------------------------------------------- for clawpack documentation path: /netlib/pdes/claw/doc/ ----------------------------------------------------------- contents.ascii for list of current contents contents.ps for list of current contents note01.ps for general introduction to clawpack note02.ps for description of the algorithms used in clawpack. note03.ps note04.ps note05.ps note06.ps size 596 kB note07.ps note08.ps size 225 kB note09.ps size 634 kB note10.ps size 364 kB biblio.ps cover.ps # to print all the notes in the proper order, give the command # lpr cover.ps contents.ps note*.ps biblio.ps hyp94.ps for overview of clawpack Version 1.0 (partly out of date). ref 5th Int'l Conf. on Hyperbolic Problems, Stony Brook, June, 1994. slides.ps for transparancies from a talk about CLAWPACK, with numerous figures that attempt to show the basic ideas more clearly. size 281 kB README ----------------------------------------------------------- for 2D elliptic partial differential equations on path: /netlib/pdes/mgghat/ ----------------------------------------------------------- .depend src/ for source code for MGGHAT size 343 kB see supplementary routines from linpack and the blas, e.g. by asking "send ssifa ssisl sgbco sgbsl scopy from linpack" and put these in linpack.f doc/ for user's guide for MGGHAT lang ASCII text file, LaTeX, PostScript see HT ML version size 358 kB graphics/ for examples of how to use gnuplot to display saved output files size 640 kB # "send all from pdes/mgghat" will get all three. readme ----------------------------------------------------------- for user's guide for MGGHAT path: /netlib/pdes/mgghat/doc/ ----------------------------------------------------------- README acknowl.ascii changes.ascii fig1.gif fig2.gif fig3.gif fig4.gif fig5.gif fig6.gif fig7.gif html.sty install.ascii userguide.ascii userguide.ps userguide.tex ----------------------------------------------------------- for examples of how to use gnuplot to display saved path: /netlib/pdes/mgghat/graphics/ ----------------------------------------------------------- README contour.gps converge.gps facets.gps gpconv.dat gpsol.dat gptri.dat sol_and_tri.gps solution.gps triangle.gps ----------------------------------------------------------- for source code for MGGHAT path: /netlib/pdes/mgghat/src/ ----------------------------------------------------------- README commons gnuplt.c gnuplt.cray.c gnuplt.no_.c grmenu inittr.L makefile makefile.aix makefile.convex makefile.cray makefile.hpux makefile.irix makefile.linux makefile.sunos mgghat.f need.setup r1mach.f r1mach8.f second.aix.f second.c second.f second8.c system.cray.f user.f user.f.poisson user.f.system user.f.timedep ----------------------------------------------------------- for generic message-passing interface to path: /netlib/picl/ ----------------------------------------------------------- picl2.0/ readme for description and install instructions for PICL 2.0 announcement.picl2 for 6/94 announcement of PICL 2.0 availability and features picl2.commands for brief description of PICL 2.0 features and functionality picl2.models for brief description of PICL 2.0 programming models creference.ps for compressed and uuencoded postscript file of the 1990 reference manual for the C version of PICL. Use uudecode and uncompress before printing. userguide.ps for compressed and uuencoded postscript file of the 1990 PICL users' guide. Use uudecode and uncompress before printing. traceformat.ps for compressed and uuencoded postscript file of the 1992 report describing the updated PICL trace data format. Use uudecode and uncompress before printing. ----------------------------------------------------------- path: /netlib/picl/picl2.0/ ----------------------------------------------------------- NX/ PVM/ README README.NX README.PVM README.VERTEX VERTEX/ makefile makefiles/ picl/ port/ trace/ ----------------------------------------------------------- path: /netlib/picl/picl2.0/NX/ ----------------------------------------------------------- host/ mpsimulator/ node/ ----------------------------------------------------------- path: /netlib/picl/picl2.0/NX/host/ ----------------------------------------------------------- common/ ipsc2/ ipsc860/ mpsim/ paragon/ ----------------------------------------------------------- path: /netlib/picl/picl2.0/NX/host/common/ ----------------------------------------------------------- .emacs_382 envalloc.h envfclose.h envfflush.h envfopen.h envfprintf.h envfread.h envfwrite.h envhost.c envload.h envopen.h envprintf.h envprobe.c envprobe.h envprobef.h envrecv.c envrecv.h envrecvbeg.c envrecvbeg.h envrecvbyte.h envrecvend.c envrecvend.h envrecvinfo.h envrecvstat.c envrecvstatus.h envrecvtype.h envrewind.h envsend.c envsend.h envsendbeg.c envsendbeg.h envsendend.c envsendend.h envsendstat.c envsendstatus.h envsync.c envsync.h envunlink.h envwait.c envwait.h ----------------------------------------------------------- path: /netlib/picl/picl2.0/NX/host/ipsc2/ ----------------------------------------------------------- clock0.c envclock.h envclocksync.c envclose.h envdifftime.h envglobaldefs.h envglobals.h envload.c envopen.c envsum.c envtime.c envupdatetime.h f2c.c ff2c.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/NX/host/ipsc860/ ----------------------------------------------------------- clock0.c envclock.h envclocksync.c envclose.h envdifftime.h envglobaldefs.h envglobals.h envload.c envopen.c envsum.c envtime.c envupdatetime.h f2c.c ff2c.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/NX/host/mpsim/ ----------------------------------------------------------- .emacs_382 clock0.c envclock.h envclocksync.c envclose.h envdifftime.h envglobaldefs.h envglobals.h envload.c envopen.c envsum.c envtime.c envupdatetime.h f2c.c ff2c.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/NX/host/paragon/ ----------------------------------------------------------- clock0.c envclock.h envclocksync.c envclose.h envdifftime.h envglobaldefs.h envglobals.h envload.c envopen.c envsum.c envtime.c envupdatetime.h f2c.c ff2c.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/NX/mpsimulator/ ----------------------------------------------------------- CHANGES NOTES README drive.c makefile makefile.aix makefile.seq makefile.sysv makefile.sysv3 makefile.unicos makefile.vax makefile.xenix mpsim.c mpsim.man sbld sbld.xenix sim.h simlib.c simlib.h userin.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/NX/node/ ----------------------------------------------------------- common/ delta/ ipsc2/ ipsc860/ mpsim/ paragon/ sunmos/ ----------------------------------------------------------- path: /netlib/picl/picl2.0/NX/node/common/ ----------------------------------------------------------- .emacs_382 envclose.h envfclose.h envfflush.h envfopen.h envfprintf.h envfread.h envfwrite.h envhost.c envopen.c envopen.h envprintf.h envprobe.c envprobe.h envrecv.c envrecv.h envrecvbeg.c envrecvbeg.h envrecvbyte.h envrecvend.c envrecvend.h envrecvinfo.h envrecvstat.c envrecvstatus.h envrecvtype.h envrewind.h envsend.c envsend.h envsendbeg.c envsendbeg.h envsendend.c envsendend.h envsendstat.c envsendstatus.h envsync.c envsync.h envunlink.h envwait.c envwait.h ----------------------------------------------------------- path: /netlib/picl/picl2.0/NX/node/delta/ ----------------------------------------------------------- .emacs_382 clock0.c envclock.h envclocksync.c envdifftime.h envglobaldefs.h envglobals.h envsum.c envtime.c envupdatetime.h f2c.c ff2c.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/NX/node/ipsc2/ ----------------------------------------------------------- alarm.c clock0.c envclock.h envclockinit.c envclocksync.c envdifftime.h envglobaldefs.h envglobals.h envin.s envsum.c envtime.c envupdatetime.h f2c.c ff2c.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/NX/node/ipsc860/ ----------------------------------------------------------- clock0.c envclock.h envclocksync.c envdifftime.h envglobaldefs.h envglobals.h envsum.c envtime.c envupdatetime.h f2c.c ff2c.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/NX/node/mpsim/ ----------------------------------------------------------- clock0.c envclock.h envclocksync.c envdifftime.h envglobaldefs.h envglobals.h envsum.c envtime.c envupdatetime.h f2c.c ff2c.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/NX/node/paragon/ ----------------------------------------------------------- clock0.c envclock.h envclocksync.c envdifftime.h envglobaldefs.h envglobals.h envsum.c envtime.c envupdatetime.h f2c.c ff2c.c holdclocksync.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/NX/node/sunmos/ ----------------------------------------------------------- clock0.c envclock.h envclocksync.c envdifftime.h envglobaldefs.h envglobals.h envsum.c envtime.c envupdatetime.h f2c.c ff2c.c rpmclocksync.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/PVM/ ----------------------------------------------------------- host/ node/ ----------------------------------------------------------- path: /netlib/picl/picl2.0/PVM/host/ ----------------------------------------------------------- common/ rs6k/ sun/ ----------------------------------------------------------- path: /netlib/picl/picl2.0/PVM/host/common/ ----------------------------------------------------------- envalloc.h envclock.h envclose.h envdifftime.h envfclose.h envfflush.h envfprintf.h envfread.h envfwrite.h envhost.c envload.h envopen.h envprintf.h envprobe.c envprobe.h envprobef.h envrecv.c envrecv.h envrecvbeg.h envrecvbyte.h envrecvend.h envrecvinfo.h envrecvstatus.h envrecvtype.h envrewind.h envsend.c envsend.h envsendbeg.h envsendend.h envsendstatus.h envsync.c envsync.h envunlink.h envupdatetime.h envwait.c envwait.h ----------------------------------------------------------- path: /netlib/picl/picl2.0/PVM/host/rs6k/ ----------------------------------------------------------- clock0.c envclocksync.c envfopen.h envglobaldefs.h envglobals.h envload.c envopen.c envsum.c envtime.c f2c.c ff2c.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/PVM/host/sun/ ----------------------------------------------------------- clock0.c envclocksync.c envfopen.h envglobaldefs.h envglobals.h envload.c envopen.c envsum.c envtime.c f2c.c ff2c.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/PVM/node/ ----------------------------------------------------------- common/ rs6k/ sun/ ----------------------------------------------------------- path: /netlib/picl/picl2.0/PVM/node/common/ ----------------------------------------------------------- envclock.h envclose.h envdifftime.h envfclose.h envfflush.h envfprintf.h envfread.h envfwrite.h envhost.c envopen.c envopen.h envprintf.h envprobe.c envprobe.h envrecv.c envrecv.h envrecvbeg.h envrecvbyte.h envrecvend.h envrecvinfo.h envrecvstatus.h envrecvtype.h envrewind.h envsend.c envsend.h envsendbeg.h envsendend.h envsendstatus.h envsync.c envsync.h envunlink.h envupdatetime.h envwait.c envwait.h holdfopen.h ----------------------------------------------------------- path: /netlib/picl/picl2.0/PVM/node/rs6k/ ----------------------------------------------------------- clock0.c envclocksync.c envfopen.h envglobaldefs.h envglobals.h envsum.c envtime.c f2c.c ff2c.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/PVM/node/sun/ ----------------------------------------------------------- clock0.c envclocksync.c envfopen.h envglobaldefs.h envglobals.h envsum.c envtime.c f2c.c ff2c.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/VERTEX/ ----------------------------------------------------------- host/ node/ ----------------------------------------------------------- path: /netlib/picl/picl2.0/VERTEX/host/ ----------------------------------------------------------- common/ ----------------------------------------------------------- path: /netlib/picl/picl2.0/VERTEX/host/common/ ----------------------------------------------------------- .emacs_382 clock0.c envalloc.h envclock.h envclocksync.c envclose.h envdifftime.h envfclose.h envfflush.h envfopen.h envfprintf.h envfread.h envfwrite.h envglobaldefs.h envglobals.h envhost.c envload.c envload.h envopen.c envopen.h envprintf.h envprobe.c envprobe.h envprobef.h envrecv.c envrecv.h envrecvbeg.h envrecvbyte.h envrecvend.h envrecvinfo.h envrecvstatus.h envrecvtype.h envrewind.h envsend.c envsend.h envsendbeg.h envsendend.h envsendstatus.h envsum.c envsync.c envsync.h envtime.c envunlink.h envupdatetime.h envwait.c envwait.h f2c.c ff2c.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/VERTEX/node/ ----------------------------------------------------------- common/ ncube2/ ncube2S/ ----------------------------------------------------------- path: /netlib/picl/picl2.0/VERTEX/node/common/ ----------------------------------------------------------- envclocksync.c envclose.h envfclose.h envfflush.h envfopen.h envfprintf.h envfread.h envfwrite.h envhost.c envopen.c envopen.h envprintf.h envprobe.c envprobe.h envrecv.c envrecv.h envrecvbeg.h envrecvbyte.h envrecvend.h envrecvinfo.h envrecvstatus.h envrecvtype.h envrewind.h envsend.c envsend.h envsendbeg.h envsendend.h envsendstatus.h envsync.c envsync.h envunlink.h envwait.c envwait.h ----------------------------------------------------------- path: /netlib/picl/picl2.0/VERTEX/node/ncube2/ ----------------------------------------------------------- clock0.c envclock.h envdifftime.h envdwhen.s envglobaldefs.h envglobals.h envsum.c envtime.c envupdatetime.h envwhen.s f2c.c ff2c.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/VERTEX/node/ncube2S/ ----------------------------------------------------------- clock0.c envclock.h envdifftime.h envdwhen.s envglobaldefs.h envglobals.h envsum.c envtime.c envupdatetime.h envwhen.s f2c.c ff2c.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/makefiles/ ----------------------------------------------------------- makefile.delta makefile.ipsc2 makefile.ipsc860 makefile.mpsim makefile.ncube2 makefile.ncube2S makefile.paragon makefile.rs6kpvm makefile.sunmos makefile.sunpvm ----------------------------------------------------------- path: /netlib/picl/picl2.0/picl/ ----------------------------------------------------------- common/ host/ node/ ----------------------------------------------------------- path: /netlib/picl/picl2.0/picl/common/ ----------------------------------------------------------- host/ node/ ----------------------------------------------------------- path: /netlib/picl/picl2.0/picl/common/host/ ----------------------------------------------------------- check0.c clocksync0.c enverrmsg.c getdata0.c host0.c malloc0.c message0.c recvbegin0.c recvend0.c recvinfo0.c recvstatus0.c send0.c sendbegin0.c sendend0.c sendstatus0.c setdata0.c statsfile.save sync0.c who0.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/picl/common/node/ ----------------------------------------------------------- check0.c clocksync0.c enverrmsg.c getdata0.c host0.c malloc0.c message0.c recvbegin0.c recvend0.c recvinfo0.c recvstatus0.c send0.c sendbegin0.c sendend0.c sendstatus0.c setdata0.c statsfile.save sync0.c who0.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/picl/host/ ----------------------------------------------------------- close0.c globaldefs.h globals.h load0.c open0.c probe0.c recv0.c wait0.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/picl/node/ ----------------------------------------------------------- close0.c globaldefs.h globals.h open0.c probe0.c recv0.c wait0.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/port/ ----------------------------------------------------------- host/ node/ ----------------------------------------------------------- path: /netlib/picl/picl2.0/port/host/ ----------------------------------------------------------- bcast0.c bcast1.c datasize0.c gand0.c gcomb0.c getarc0.c ginv0.c gmax0.c gmin0.c gor0.c gprod0.c gray0.c gsum0.c gxor0.c portglobaldefs.h portglobals.h setarc0.c traceport.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/port/node/ ----------------------------------------------------------- antipode0.c barrier0.c bcast0.c bcast1.c datasize0.c gand0.c gather0.c gcomb0.c getarc0.c ginv0.c gmax0.c gmin0.c gor0.c gprod0.c gray0.c gsum0.c gxor0.c neighbor0.c portglobaldefs.h portglobals.h setarc0.c traceport.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/trace/ ----------------------------------------------------------- common/ host/ node/ trace.h tracedefs.h ----------------------------------------------------------- path: /netlib/picl/picl2.0/trace/common/ ----------------------------------------------------------- host/ node/ ----------------------------------------------------------- path: /netlib/picl/picl2.0/trace/common/host/ ----------------------------------------------------------- envfinflush.c envflush.c envprocess.c envtracemsg.c fclose1.c fopen1.c idle1.c overhead1.c read1.c statsfile.save system1.c traceblkbeg.c traceblkend.c tracedata.c traceevent.c traceexit.c traceflush.c traceinfo.c tracelevel.c tracemark.c tracemarks.c tracemsg.c tracestats.c write1.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/trace/common/node/ ----------------------------------------------------------- envfinflush.c envflush.c envprocess.c envtracemsg.c fclose1.c fopen1.c idle1.c overhead1.c read1.c statsfile.save system1.c traceblkbeg.c traceblkend.c tracedata.c traceevent.c traceexit.c traceflush.c traceinfo.c tracelevel.c tracemark.c tracemarks.c tracemsg.c tracestats.c write1.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/trace/host/ ----------------------------------------------------------- traceenable.c tracefiles.c tracehost.c ----------------------------------------------------------- path: /netlib/picl/picl2.0/trace/node/ ----------------------------------------------------------- tracefiles.c tracenode.c ----------------------------------------------------------- for elliptic partial differential equations in path: /netlib/pltmg/ ----------------------------------------------------------- single/ prec single double/ prec double journal_files/ for examples in book other_graphics/ for system-specific graphics (other than X11 and PostScript) readme copyright_notice ----------------------------------------------------------- prec double path: /netlib/pltmg/double/ ----------------------------------------------------------- .depend pltmg.f for a FEM multigrid code for 2D elliptic PDE. size 696 kB machdep.f for machine dependent subroutines for pltmg psgraph.f for PostScript graphics xgraph.c for X11 graphics atest.f for example driver for pltmg circle.f for coefficients, right-hand-side for circle example domains.f for coefficients, right-hand-side for domains example jcn.f for coefficients, right-hand-side for jcn example naca.f for coefficients, right-hand-side for naca example square.f for coefficients, right-hand-side for square example makefile for how to compile test programs ----------------------------------------------------------- for examples in book path: /netlib/pltmg/journal_files/ ----------------------------------------------------------- jnl01.sv jnl02.sv jnl03.sv jnl04.sv jnl05.sv jnl06.sv jnl07.sv jnl08.sv ----------------------------------------------------------- for system-specific graphics (other than X11 and path: /netlib/pltmg/other_graphics/ ----------------------------------------------------------- glgraph.c ibmpc.f macii.f psgraph.f suntool.c tek4010.f xgraph.c ----------------------------------------------------------- prec single path: /netlib/pltmg/single/ ----------------------------------------------------------- .depend pltmg.f for a FEM multigrid code for 2D elliptic PDE. size 690 kB machdep.f for machine dependent subroutines for pltmg psgraph.f for PostScript graphics xgraph.c for X11 graphics atest.f for example driver for pltmg circle.f for coefficients, right-hand-side for circle example domains.f for coefficients, right-hand-side for domains example jcn.f for coefficients, right-hand-side for jcn example naca.f for coefficients, right-hand-side for naca example square.f for coefficients, right-hand-side for square example makefile for how to compile test programs ----------------------------------------------------------- for conversion tools for polyhedra library path: /netlib/poly2/ ----------------------------------------------------------- p1 p2 p3 p4 dickson size 251 kB readme ----------------------------------------------------------- for angles, vertex locations, etc of geometric path: /netlib/polyhedra/ ----------------------------------------------------------- # Polyhedron Database: # There is a file for each solid with an index number given below. # The format is nearly obvious; the details are given in poly.man # (troff/nroff input). A lot of solids have symbolic data as well as # numeric data. # The numeric data is normally accurate to about 1e-11. # The solids include the regular polyhedra (0-8), Archimedean (9-21), # some prisms and anti-prisms (22-31), Archimdean duals (32-44), the # Johnson # solids (all convex polyhedra with regular faces, 45-136) and some # weird # solids (137-141). # Please send errors, omissions and suggestions to research!andrew. poly.man for database manual page poly.src/ for sample C code 0 for tetrahedron 1 for cube 2 for octahedron 3 for dodecahedron 4 for icosahedron 5 for small stellated dodecahedron 6 for great dodecahedron 7 for great stellated dodecahedron 8 for great icosahedron 9 for truncated tetrahedron 10 for cuboctahedron 11 for truncated cube 12 for truncated octahedron 13 for rhombicuboctahedron 14 for great rhombicuboctahedron 15 for snub cube (laevo) 16 for icosidodecahedron 17 for truncated dodecahedron 18 for truncated icosahedron 19 for rhombicosidodecahedron 20 for great rhombicosidodecahedron 21 for snub dodecahedron (laevo) 22 for triangular prism 23 for pentagonal prism 24 for hexagonal prism 25 for octagonal prism 26 for decagonal prism 27 for square antiprism 28 for pentagonal antiprism 29 for hexagonal antiprism 30 for octagonal antiprism 31 for decagonal antiprism 32 for triakis tetrahedron 33 for rhombic dodecahedron 34 for triakis octahedron 35 for tetrakis hexahedron 36 for trapezoidal icositetrahedron 37 for hexakis octahedron 38 for pentagonal icositetrahedron (dextro) 39 for rhombic triacontahedron 40 for triakis icosahedron 41 for pentakis dodecahedron 42 for trapezoidal hexecontahedron 43 for hexakis icosahedron 44 for pentagonal hexecontahedron (dextro) 45 for square pyramid (J1) 46 for pentagonal pyramid (J2) 47 for triangular cupola (J3) 48 for square cupola (J4) 49 for pentagonal cupola (J5) 50 for pentagonal rotunda (J6) 51 for elongated triangular pyramid (J7) 52 for elongated square pyramid (J8) 53 for elongated pentagonal pyramid (J9) 54 for gyroelongated square pyramid (J10) 55 for gyroelongated pentagonal pyramid (J11) 56 for triangular dipyramid (J12) 57 for pentagonal dipyramid (J13) 58 for elongated triangular dipyramid (J14) 59 for elongated square dipyramid (J15) 60 for elongated pentagonal dipyramid (J16) 61 for gyroelongated square dipyramid (J17) 62 for elongated triangular cupola (J18) 63 for elongated square cupola (J19) 64 for elongated pentagonal cupola (J20) 65 for elongated pentagonal rotunds (J21) 66 for gyroelongated triangular cupola (J22) 67 for gyroelongated square cupola (J23) 68 for gyroelongated pentagonal cupola (J24) 69 for gyroelongated pentagonal rotunda (J25) 70 for gyrobifastigium (J26) 71 for triangular orthobicupola (J27) 72 for square orthobicupola (J28) 73 for square gyrobicupola (J29) 74 for pentagonal orthobicupola (J30) 75 for pentagonal gyrobicupola (J31) 76 for pentagonal orthocupolarontunda (J32) 77 for pentagonal gyrocupolarotunda (J33) 78 for pentagonal orthobirotunda (J34) 79 for elongated triangular orthobicupola (J35) 80 for elongated triangular gyrobicupola (J36) 81 for elongated square gyrobicupola (J37) 82 for elongated pentagonal orthobicupola (J38) 83 for elongated pentagonal gyrobicupola (J39) 84 for elongated pentagonal orthocupolarotunda (J40) 85 for elongated pentagonal gyrocupolarotunda (J41) 86 for elongated pentagonal orthobirotunda (J42) 87 for elongated pentagonal gyrobirotunda (J43) 88 for gyroelongated triangular bicupola (J44) 89 for gyroelongated square bicupola (J45) 90 for gyroelongated pentagonal bicupola (J46) 91 for gyroelongated pentagonal cupolarotunda (J47) 92 for gyroelongated pentagonal birotunda (J48) 93 for augmented triangular prism (J49) 94 for biaugmented triangular prism (J50) 95 for triaugmented triangular prism (J51) 96 for augmented pentagonal prism (J52) 97 for biaugmented pentagonal prism (J53) 98 for augmented hexagonal prism (J54) 99 for parabiaugmented hexagonal prism (J55) 100 for metabiaugmented hexagonal prism (J56) 101 for triaugmented hexagonal prism (J57) 102 for augmented dodecahedron (J58) 103 for parabiaugmented dodecahedron (J59) 104 for metabiaugmented dodecahedron (J60) 105 for triaugmented dodecahedron (J61) 106 for metabidiminished icosahedron (J62) 107 for tridiminished icosahedron (J63) 108 for augmented tridiminished icosahedron (J64) 109 for augmented truncated tetrahedron (J65) 110 for augmented truncated cube (J66) 111 for biaugmented truncated cube (J67) 112 for augmented truncated dodecahedron (J68) 113 for parabiaugmented truncated dodecahedron (J69) 114 for metabiaugmented truncated dodecahedron (J70) 115 for triaugmented truncated dodecahedron (J71) 116 for gyrate rhombicosidodecahedron (J72) 117 for parabigyrate rhombicosidodecahedron (J73) 118 for metabigyrate rhombicosidodecahedron (J74) 119 for trigyrate rhombicosidodecahedron (J75) 120 for diminished rhombicosidodecahedron (J76) 121 for paragyrate diminished rhombicosidodecahedron (J77) 122 for metagyrate diminished rhombicosidodecahedron (J78) 123 for bigyrate diminished rhombicosidodecahedron (J79) 124 for parabidiminished rhombicosidodecahedron (J80) 125 for metabidiminished rhombicosidodecahedron (J81) 126 for gyrate bidiminished rhombicosidodecahedron (J82) 127 for tridiminished rhombicosidodecahedron (J83) 128 for snub disphenoid (J84) 129 for snub square antiprism (J85) 130 for sphenocorona (J86) 131 for augmented sphenocorona (J87) 132 for sphenomegacorona (J88) 133 for hebesphenomegacorona (J89) 134 for disphenocingulum (J90) 135 for bilunabirotunda (J91) 136 for triangular hebesphenorotunda (J92) 137 for tetrahemihexahedron 138 for octahemioctahedron 139 for small ditrigonal icosidodecahedron 140 for dodecadodecahedron 141 for echidnahedron poly.n ----------------------------------------------------------- for sample C code path: /netlib/polyhedra/poly.src/ ----------------------------------------------------------- README getfields.c poly.h poly_field.c poly_lk.c poly_read.c poly_write.c ----------------------------------------------------------- for arbitrary manipulation of digitized images. path: /netlib/popi/ ----------------------------------------------------------- bundle/ for the software (a 500 line C program) disclaimer face1 for a sample image from the book. face2 for a sample image from the book. face3 for a sample image from the book. face4 for a sample image from the book. face5 for a sample image from the book. rakitzis readme ----------------------------------------------------------- for the software (a 500 line C program) path: /netlib/popi/bundle/ ----------------------------------------------------------- READ.ME display.bas expr.c io.c lex.c lib.c main.c popi.h run.c ----------------------------------------------------------- for public subset of the PORT library path: /netlib/port/ ----------------------------------------------------------- .depend Makefile ex/ for example drivers chk/ for drivers to verify proper installation of port Mach/ New n2f.bon n2f.dep readme a0xtrp.f a7sst.f a9rntc.f a9rntd.f a9rnti.f a9rntl.f a9rntr.f aprntc.f aprntd.f aprnti.f aprntl.f aprntr.f c7vfn.f call.f d0xtrp.f d1mach.f d4sqr.f d7dgb.f d7dog.f d7dup.f d7egr.f d7mlp.f d7tpr.f d7upd.f da7sst.f dalloc.f dc7vfn.f dd4sqr.f dd7dgb.f dd7dog.f dd7dup.f dd7mlp.f dd7tpr.f dd7upd.f df7dhb.f df7hes.f dg7itb.f dg7lit.f dg7qsb.f dg7qts.f dh2rfa.f dh2rfg.f dhqr2.f ditsum.f divset.f dl7itv.f dl7ivm.f dl7msb.f dl7mst.f dl7nvr.f dl7sqr.f dl7srt.f dl7svn.f dl7svx.f dl7tsq.f dl7tvm.f dl7upd.f dl7vml.f dmnf.f dmnfb.f dmng.f dmngb.f dmnh.f dmnhb.f dn2cvp.f dn2f.f dn2fb.f dn2g.f dn2gb.f dn2lrd.f dn2p.f dn2pb.f dn2rdp.f dnsf.f dnsfb.f dnsg.f dnsgb.f do7prd.f dparck.f dpostx1.f dpostx10.f dpostx2.f dpostx3.f dpostx4.f dpostx5.f dpostx6.f dpostx7.f dpostx8.f dpostx9.f dq7apl.f dq7rad.f dq7rfh.f dq7rsh.f dr7mdc.f dr7tvm.f drldst.f drmnf.f drmnfb.f drmng.f drmngb.f drmnh.f drmnhb.f drn2g.f drn2gb.f drnsg.f drnsgb.f ds3grd.f ds7bqn.f ds7cpr.f ds7dmp.f ds7grd.f ds7ipr.f ds7lup.f ds7lvm.f dsm.f dttgrx1.f dttgrx1p.f dttgrx2.f dttgrx3.f dttgrx4.f dttgrx5.f dttgrx6.f dttgux1.f dttgux1p.f dttgux2.f dttgux3.f dttgux4.f dttgux5.f dv2axy.f dv2nrm.f dv7cpy.f dv7dfl.f dv7ipr.f dv7prm.f dv7scl.f dv7scp.f dv7shf.f dv7swp.f dv7vmp.f dw7zbf.f dxtrap.f e9rint.f enter.f entsrc.f eprint.f erroff.f f7dhb.f f7hes.f fdump.f frmatd.f frmati.f frmatr.f g7itb.f g7lit.f g7qsb.f g7qts.f h2rfa.f h2rfg.f hqr2.f i0tk00.f i0tk01.f i10wid.f i1mach.f i7copy.f i7do.f i7mdcn.f i7pnvr.f i7shft.f i8save.f i8tsel.f ialloc.f iceil.f iflr.f istkgt.f istkin.f istkmd.f istkqu.f istkrl.f istkst.f itsum.f ivset.f l5stp.f l7itv.f l7ivm.f l7msb.f l7mst.f l7nvr.f l7sqr.f l7srt.f l7svn.f l7svx.f l7tsq.f l7tvm.f l7upd.f l7vml.f leave.f m7seq.f m7slo.f mnf.f mnfb.f mng.f mngb.f mnh.f mnhb.f movebc.f movebd.f movebi.f movebl.f movebr.f movefc.f movefd.f movefi.f movefl.f movefr.f mtstak.f n2cvp.f n2f.f n2fb.f n2g.f n2gb.f n2lrd.f n2p.f n2pb.f n2rdp.f n7msrt.f nerror.f nirall.f nsf.f nsfb.f nsg.f nsgb.f o7prd.f parck.f postx1.f postx10.f postx2.f postx3.f postx4.f postx5.f postx6.f postx7.f postx8.f postx9.f q7apl.f q7rad.f q7rfh.f q7rsh.f r1mach.f r7mdc.f r7tvm.f retsrc.f rldst.f rmnf.f rmnfb.f rmng.f rmngb.f rmnh.f rmnhb.f rn2g.f rn2gb.f rnsg.f rnsgb.f s1mach.f s2mach.f s3grd.f s3mach.f s7bqn.f s7cpr.f s7dmp.f s7etr.f s7grd.f s7ipr.f s7lup.f s7lvm.f s7rtdt.f s88fmt.f sdump.f setc.f setd.f seterr.f seti.f setl.f setr.f srecap.f stinit.f stkdmp.f stopx.f ttgrx1.f ttgrx1p.f ttgrx2.f ttgrx3.f ttgrx4.f ttgrx5.f ttgrx6.f ttgux1.f ttgux1p.f ttgux2.f ttgux3.f ttgux4.f ttgux5.f u9dmp.f v2axy.f v2nrm.f v7cpy.f v7dfl.f v7ipr.f v7prm.f v7scl.f v7scp.f v7shf.f v7swp.f v7vmp.f w7zbf.f xtrap.f ----------------------------------------------------------- path: /netlib/port/Mach/ ----------------------------------------------------------- d1mach.f i1mach.f r1mach.f ----------------------------------------------------------- for drivers to verify proper installation of port path: /netlib/port/chk/ ----------------------------------------------------------- # Index for port/chk .depend Makefile dependencies thyp.f for test linguistic hypotheses mach.f for test the machine constants (for consistency) err1.f for test the error handling package err2.f for test the error handling package err3.f for test the error handling package stk1.f for first storage allocator test stk2.f for second allocator test errk.f for test stkdmp rnrm.f for test rnorm plya.f for test the trigonometric polynomial routines plyc.f for test the orthogonal polynomial routines extr.f for test extrmr mntb.f for test the monotonicity routines gama.f for test gamma gmad.f for test dgamma qblg.f for test quad qbgd.f for test dquad qgsg.f for test programs for gauss quadrature qggd.f for test programs for gauss quadrature (double-precision) mfte.f for test programs for multiple fft - mftcc, mftrc, mftcr mfed.f for test programs for multiple fft (d.p.) - dmftcc,dmftrc,dmftcr sdba.f for test dl2sf sple.f for test splne vdad.f for test dvdss1 vdbd.f for test dvdss2 vded.f for test dvdss3 ltsq.f for test ltsq and lstsq ltqd.f for test dltsq and dlstsq lgea.f for test gece and friends lgad.f for test dgece and friends lyma.f for test syce and friends lyad.f for test dsyce and friends lgac.f for test cgece and friends lyrc.f for test chece and friends lysc.f for second test of the programs chece and friends prsa.f for test the sparse matrix package prad.f for test the double precision sparse matrix package prac.f for test the complex sparse matrix package svda.f for first test of svd svdb.f for second test of svd svdc.f for test of svdls svad.f for first test of dsvd svbd.f for second test of dsvd svcd.f for third test of dsvdls llza.f for test lz qpra.f for test iqp qpad.f for test diqp lrpa.f for test the linear programming - linpr, etc. lrad.f for test the linear programming - dlinpr, etc. README ltsqc.f nohup.out ----------------------------------------------------------- for example drivers path: /netlib/port/ex/ ----------------------------------------------------------- # Index for port/ex .depend Makefile apnr.f for testing APRNTX dependencies lban.f for testing BABS lbab.f for testing BACE lbaj.f for testing BADC lbaf.f for testing BALE lbal.f for testing BALU lbap.f for testing BAML lbak.f for testing BANM lbaa.f for testing BASS lpsb.f for testing BPCE lpsg.f for testing BPDC lpsk.f for testing BPFS lpsj.f for testing BPLD lpsf.f for testing BPLE lpsm.f for testing BPML lpsa.f for testing BPSS permission qblc.f for testing BQUAD bura.f for testing BURAM burb.f for testing BURM1 cdex.f for testing CDEXP cdlg.f for testing CDLOG cpla.f for testing CPOLY cspe.f for testing CSPDI cspq.f for testing CSPFE cspg.f for testing CSPIN cspa.f for testing CSPQU sdba.f for testing DL2SF qodd.f for testing DODEQ rpad.f for testing DRPOLY xkhd.f for testing DXKTH ebea.f for testing EEBSF evaa.f for testing EIGEN extr.f for testing EXTRMX lrpe.f for testing FEAS lrpf.f for testing FEASA ftrc.f for testing FFTC ftra.f for testing FFTR mnna.f for testing FMIN fmtr.f for testing FRMATT lgel.f for testing GEBS lgeb.f for testing GECE lgef.f for testing GELE lgej.f for testing GELU lgem.f for testing GEML lgeh.f for testing GENM lgea.f for testing GESS qgsg.f for testing GQ1 qgsh.f for testing GQEX qgsj.f for testing GQEX2 qgsm.f for testing GQEXA qgsp.f for testing GQLOG qgsr.f for testing GQXA qgst.f for testing GQXAB ddea.f for testing IODE qpra.f for testing IQP xkhi.f for testing IXKTH lsfa.f for testing L2SFF lrpb.f for testing LINPA lrpg.f for testing LINPA lrpa.f for testing LINPR lnab.f for testing LSTSQ llza.f for testing LZ mfte.f for testing MFTCC mftg.f for testing MFTCR mftf.f for testing MFTRC nlsa.f for testing MNF nlsb.f for testing MNFB mllr.f for testing MULLR nlsj.f for testing N2F nlsk.f for testing N2FB nlsp.f for testing N2PB nsfa.f for testing NSF1 nlsr.f for testing NSG nmsk.f for testing NSGB desa.f for testing ODES pdea.f for testing POST pdew.f for testing POSTU qblg.f for testing QUAD ranc.f for testing RANBYT rnrm.f for testing RNORM qbla.f for testing RQUAD ntle.f for testing SMNFB ntlf.f for testing SMNG ntlh.f for testing SMNGB ntlk.f for testing SMNH ntlm.f for testing SMNHB nsnm.f for testing SMNSX np2a.f for testing SN2F np2b.f for testing SN2FB np2e.f for testing SN2G np2f.f for testing SN2GB ntlp.f for testing SNSF ntlt.f for testing SNSFB ntlr.f for testing SNSG ntlu.f for testing SNSGB prsm.f for testing SPFCE prsf.f for testing SPFLE prst.f for testing SPFLU prsz.f for testing SPFML prsy.f for testing SPFNF prea.f for testing SPFOR splf.f for testing SPLNI prsj.f for testing SPMCE prsa.f for testing SPMLE prsp.f for testing SPMLU prs1.f for testing SPMML prs3.f for testing SPMNF prma.f for testing SPMSF errk.f for testing STKDMP lymb.f for testing SYCE lymp.f for testing SYML lymk.f for testing SYNM lyma.f for testing SYSS vdsa.f for testing VDSS1 vdsb.f for testing VDSS2 vdse.f for testing VDSS3 xkt.f for testing XKTH zera.f for testing ZERO zona.f for testing ZONE zonb.f for testing ZONEJ README dpostx1.f dpostx10.f dpostx2.f dpostx3.f dpostx4.f dpostx5.f dpostx6.f dpostx7.f dpostx8.f dpostx9.f dpt1.f dpt2.f dpt3.f dpt4.f dpt5.f dpt6.f dpt7.f dpt8.f dpt9.f dptt.f dtg1.f dtg2.f dtg3.f dtg4.f dtg5.f dtg6.f dtgp.f dttgrx1.f dttgrx1p.f dttgrx2.f dttgrx3.f dttgrx4.f dttgrx5.f dttgrx6.f ffta fftc postx1.f postx10.f postx2.f postx3.f postx4.f postx5.f postx6.f postx7.f postx8.f postx9.f pst1.f pst2.f pst3.f pst4.f pst5.f pst6.f pst7.f pst8.f pst9.f pstt.f ttg1.f ttg2.f ttg3.f ttg4.f ttg5.f ttg6.f ttgp.f ttgrx1.f ttgrx1p.f ttgrx2.f ttgrx3.f ttgrx4.f ttgrx5.f ttgrx6.f xkth zap.ed zap.ex zap.head zap.t zip.ed ----------------------------------------------------------- for bug fixes for functions in the proprietary part path: /netlib/portfix/ ----------------------------------------------------------- a4ppg.f a4pps.f asym.f bpld.f c4nst.f c4ons.f c5app.f cbanm.f cbpld.f cbpnm.f d1rply.f d2rply.f d3rply.f d4clm.f d4rply.f d5rply.f d7rply.f d8rply.f d9rply.f da4ppg.f da4pps.f dasym.f dbpld.f dc4nst.f dc4ons.f dd4clm.f dg4etc.f dl4p2.f dl4ph1.f dlinpa.f dlinpr.f dltsq.f dm1ft.f dm2ft.f dm33ft.f dm3ft.f dm44ft.f dm5ft.f dm66ft.f dm7ft.f dmftcc.f dmftci.f dmftcr.f dmftrc.f dmftri.f dnsf1.f dqp2nt.f drpoly.f drquad.f dspmle.f dsvdls.f dsym.f dt1ued.f dt1uev.f dt2uev.f dt3uev.f dvdss1.f dz1one.f g4etc.f l4p2.f l4ph1.f linpa.f linpr.f ltsq.f m1ft.f m2ft.f m33ft.f m3ft.f m44ft.f m5ft.f m66ft.f m7ft.f mftcc.f mftcr.f mftrc.f n5err.f qp2nt.f readme rquad.f svdls.f sym.f vdss1.f z1one.f ----------------------------------------------------------- for splines path: /netlib/pppack/ ----------------------------------------------------------- .depend banfac.f for LU factorization, banded system, no pivoting banslv.f for solve, banded system, given LU factors bchfac.f for Cholesky factorization, banded lower triangular bchslv.f for solve, banded lower triangular, given Cholesky factorization bsplpp.f for convert B-spline representation to piecewise polynomial bsplvb.f for value of all B-splines, in support bsplvd.f for value and derivative, all B-splines in support bspp2d.f for convert 2-d B-spline representation to piecewise polynomial bvalue.f for evaluate B-spline or a derivative chol1d.f for tridiagonal matrix formation and solution, see (pppack/smooth) colloc.f for solve ODE by collocation with splines colpnt.f for compute collocation points, used with (pppack/colloc) cubspl.f for cubic spline interpolant, given data, various end conditions cwidth.f for almost block diagonal linear system alg variation of bandet1 by martin, wilkinson Numer.Math. 9(1976)279-307 dependencies difequ.f for specify an ODE and side conditions, used with (pppack/colloc) eqblok.f for set up collocation equations, used by (pppack/colloc) interv.f for determine interval of point in increasing sequence knots.f for generate knot sequence, used by (pppack/colloc) l2appr.f for construct least square approximation of B-splines to given data l2err.f for error evaluator l2knts.f for generate knot sequence l2main.f for driver for least squares approximation using splines newnot.f for generate new knots, optimal locations, given picewise polynomial representation newnotfake.f for generate uniform knots ppvalu.f for evaluate a picewise polynomial function or a derivative, given picewise polynomial representation putit.f for set-up single block of equations, used by (pppack/eqblok) reinsch.f round.f for rounding. called in example 1 of chapter xiii setdatex2.f for set-up sample data, for example 2 in chapter xiv setdatex3.f for set-up sample data, for example 3 in chapter xiv setdatex4.f for set-up sample data, for example 4 in chapter xiv setdatx2.f setdatx3.f setdatx4.f setupq.f for set-up routine, used by (pppack/smooth) slvblktext.f for almost block diagonal linear system smooth.f for cubic smoothing spline, minimize second derivative, given data spli2d.f for tensor product, B-spline interpolant, arbitrary order, given data splint.f for B-spline interpolant, arbitrary order, given data splopt.f for generate knots for optimal spline interpolation tautsp.f for taut cubic spline interpolant, given data titand.f for sample data, titanium property, spline approximation iiex.f for example, runge ivex.f for example, cubic Hermite interpolation, runge ixex.f for example, comparison, B-spline to knot averages, cubic function xex1.f for example, evaluate all B-spline in interval, for plotting xex2.f for example, evaluate the polynomials that make up a B-spline xex3.f for example, evaluate piecewise polynomial representation, B-spline xex4.f for example, construction of B-spline using (pppack/bvalue) xiiex2.f for example, cubic sline interpolation with good knots xiiex3.f for example, cubic sline interpolation with good knots xiiex4.f for example, quasi-interpolant with good knots xiiiex1.f for example, large norm amplifying noise xiiiex2.f for example, cubic spline interpolation at knot averages, good knots xiiiex3.f for example, optimal spline interpolation, titanium heat data xivex1.f for example, cubic smoothing spline xvex.f for example, second order nonlinear two point boundary value problem xviex2.f for example, taut spline interpolation to the titanium heat data xviex3.f for example, two parametrizations of some data xviiex2.f for example, bivariate spline interpolation, uses (pppack/spli2d) xviiex3.f for example, bivariate spline interpolation, (pppack/spli2d & bspp2d) data.pgs makefile run.pgs xiiex2.dat1 xiiex2.dat2 xiiex3.dat1 xiiex3.dat2 xiiex3.dat3 xiiex4.dat1 xiiex4.dat2 xiiiex1.dat1 xiiiex1.dat2 xiiiex2.dat1 xiiiex2.dat2 xiiiex2.dat3 xiiiex2m.dat1 xiiiex2m.dat2 xiiiex2m.dat3 xiiiex2m.f xivex1.dat xivex2.dat xivex3.dat xivex4.dat xviex2.dat ----------------------------------------------------------- for software and papers on a Parallel Virtual path: /netlib/pvm3/ ----------------------------------------------------------- # PVM Version 3 # ============= # This directory contains a number of items relating to PVM version 3. # # To obtain a short (1 page) writeup on the projects send mail to # netlib@ornl.gov, in the mail message type: # send writeup.ps from pvm3 # comp-phy/ ncwn.html workshop.slides/ writeup.ps for Short writeup on the PVM project (Postscript). # Last updated 2/15/93 (44069 bytes). # # *** Source code, man pages, examples, patches for version 3.3 *** # *** version 3.3 includes both uniprocessor and mpp ports *** # pvm3.3.9/ for Source code for PVM version 3.3.9 # Equivalent to base version 3.3 with patches #1-9 already applied. Last updated 9/8/95 (1203845 bytes). pvm3.3.8/ pvm338to9 for Patch #9 for PVM release 3.3 (context diffs). # Need to get v3.3.8 first Instructions come with base release in pvm3/patch/README. Last updated 9/8/95 (67209 bytes). pvm336to7 for Patch #7 for PVM release 3.3 (context diffs). # Need to get base v3.3 and apply patches #1-6 first Instructions come with base release in pvm3/patch/README. Last updated 2/7/95 (63970 bytes). pvm335to6 for Patch #6 for PVM release 3.3 (context diffs). # Need to get base v3.3 and patches #1-5 first Instructions come with base release in pvm3/patch/README. Last updated 12/21/94 (28168 bytes). pvm334to5 for Patch #5 for PVM release 3.3 (context diffs). # Need to get base v3.3 and patches #1-4 first Instructions come with base release in pvm3/patch/README. Last updated 11/9/94 (245748 bytes). pvm333to4 for Patch #4 for PVM release 3.3 (context diffs). # Need to get base v3.3 and patches #1-3 first Instructions come with base release in pvm3/patch/README. Last updated 9/4/94 (72234 bytes). pvm332to3 for Patch #3 for PVM release 3.3 (context diffs). # Need to get base v3.3 and patches #1-2 first Instructions come with base release in pvm3/patch/README. Last updated 7/18/94 (28160 bytes). pvm331to2 for Patch #2 for PVM release 3.3 (context diffs). # Need to get base v3.3 and patch #1 first Instructions come with base release in pvm3/patch/README. Last updated 7/1/94 (35341 bytes). pvm330to1 for Patch #1 for PVM release 3.3 (context diffs). # Need to get base v3.3 first Instructions come with base release in pvm3/patch/README. Last updated 6/21/94 (39230 bytes). pvm3.3/ for Source code for PVM base version 3.3 # Last updated 6/4/94 (739421 bytes). # # *** Source code for version 3.2 (old) *** # pvm3.2.6/ for Source code for PVM v3.2.6 (tar|compress|uuencode). # Equiv. to base v3.2 src + man pages with patches #1..6 already applied. Last updated 12/20/93 (619995 bytes). # # *** Documentation *** # ug.ps for The users' guide for PVM version 3.3, ORNL/TM-12187 (Postscript). # Last updated 9/21/94 (722798 bytes). refcard.ps for Quick reference card for PVM 3.3 (Postscript). # Describes the C and Fortran interface to PVM (Postscript). Last updated 6/06/94 (93545 bytes). faq.ps for Frequently-asked questions and answers about PVM (Postscript). # Version 1.6. Last updated 6/23/95 (198386 bytes). team_pvm.ps for Postscript file containing the images of the people involved in putting PVM together. # Last updated 3/2/93 (166102 bytes). # # *** Misc. *** # xpvm/ for XPVM is a graphical console and monitor for PVM. comp-phy.ps for This file contains a postscript version of a paper that appeared in the April 1993 issue of Computers in Physics, entitled Integrated PVM Framework Supports Heterogeneous Network Computing. pvm-eet.ps for This file contains a postscript version of a paper that will appear in the the journal Parallel Computing, entitled The PVM Concurrent Computing System: Evolution, Experiences, and Trends. contrib/ for Software contributed by PVM users. pvmtest.32/ for This program is designed to test PVM's important functions and capabilities, provide means for measuring PVM's performance in the message passing area and to check or give confidence to various implementations of PVM. # For PVM version 3.2. Last update 6/30/94 (221184 bytes) pvm_test/ for testing PVM contact casanova@cs.utk.edu, mucci@cs.utk.edu size 128kB age experimental keywords pvm test encoding gzip,tar euro-pvmug94 for Call for papers and registration material for the European PVM Users' Group Meeting in Rome, October 9-11 1994. pvm2.4/ for Version 2.4 of PVM (old) ----------------------------------------------------------- path: /netlib/pvm3/comp-phy/ ----------------------------------------------------------- comp-phy7.ps fig1.ps fig2.ps fig3.ps fig4.ps ----------------------------------------------------------- for Software contributed by PVM users. path: /netlib/pvm3/contrib/ ----------------------------------------------------------- # PVM Version 3 Contributed Software # ================================== # Software in this directory was contributed by users of PVM. # We'd like to make it available as it's potentially useful # to other PVM users. # It is not supported by the PVM authors. We make no # guarantees or other claims. Please send any questions, # bug fixes, etc. to the author(s) of the particular # package. # pvmfs/ for PVMFS facilitates I/O for programs utilizing the PVM system by providing a file server which presents a common file system and support for coordinated I/O to its parent and sibling PVM tasks. by Christopher G. Phillips waisq.out ----------------------------------------------------------- for PVMFS facilitates I/O for programs utilizing the path: /netlib/pvm3/contrib/pvmfs/ ----------------------------------------------------------- pvm334fs.patch # Diffs to add pvmfs to PVM version 3.3.4 (raw patches). Last updated 9/7/93 (580875 bytes). pvm325fs/ # Diffs to add pvmfs to PVM version 3.2.5 (shar file). Last updated 12/17/93 (589045 bytes). 324fs.to.325fs/ # Diffs to update PVM version 3.2.4+pvmfs to PVM version 3.2.5+pvmfs (shar file). Last updated 12/17/93 (109510 bytes). pvm324fs/ # Diffs to add pvmfs to PVM version 3.2.4 (shar file). Last updated 11/12/93 (612512 bytes). pvm3.2.4.fspatch/ # Diffs to add pvmfs to PVM version 3.2.4 Last updated 11/12/93 (258067 bytes). ----------------------------------------------------------- # Diffs to update PVM version 3.2.4+pvmfs path: /netlib/pvm3/contrib/pvmfs/324fs.to.325fs/ ----------------------------------------------------------- 3.2.4+pvmfs_to_3.2.5+pvmfs ----------------------------------------------------------- # Diffs to add pvmfs to PVM version 3.2.4 path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/ ----------------------------------------------------------- pvm3/ ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/ ----------------------------------------------------------- README.FS fsexamples/ lib/ libc/ libfpvm/ man/ patches/ pvmfs/ ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/fsexamples/ ----------------------------------------------------------- io/ iot/ ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/fsexamples/io/ ----------------------------------------------------------- CNVXN/ Makefile.aimk RS6K/ common_f_r.f common_f_w.f common_r.c common_stdc_r.c common_stdc_w.c common_w.c fstartup.f independent_f_r.f independent_f_w.f independent_r.c independent_stdc_r.c independent_stdc_w.c independent_w.c mkfiles.c startup.c syncBC_f_r.f syncBC_f_w.f syncBC_r.c syncBC_stdc_r.c syncBC_stdc_w.c syncBC_w.c syncseq_f_r.f syncseq_f_w.f syncseq_r.c syncseq_stdc_r.c syncseq_stdc_w.c syncseq_w.c wait4fs.c ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/fsexamples/io/CNVXN/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/fsexamples/io/RS6K/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/fsexamples/iot/ ----------------------------------------------------------- Makefile.aimk PMAX/ iot.c ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/fsexamples/iot/PMAX/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/lib/ ----------------------------------------------------------- debugger.screen debugger.xterm debugger2.screen debugger2.xterm ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/libc/ ----------------------------------------------------------- ALPHA/ CNVXN/ Makefile.aimk PMAX/ RS6K/ SUN4/ argtypes.h cc/ fs.h fsp.h malloc.c pipe.h posix.c pvmerrno.c pvmerrno.h pvmerrno.pl syscalls.c ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/libc/ALPHA/ ----------------------------------------------------------- errnoconf.h ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/libc/CNVXN/ ----------------------------------------------------------- errnoconf.h ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/libc/PMAX/ ----------------------------------------------------------- errnoconf.h ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/libc/RS6K/ ----------------------------------------------------------- Mfile errnoconf.h syscall-fake.h syscall.c syscall.exp ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/libc/SUN4/ ----------------------------------------------------------- errnoconf.h ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/libc/cc/ ----------------------------------------------------------- ccwrap.c regress.c ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/libfpvm/ ----------------------------------------------------------- pvmffstid.m4 pvmfgetdef.m4 pvmfgetiomode.m4 pvmfgetioord.m4 pvmfsetdef.m4 pvmfsetiomode.m4 pvmfsetioord.m4 pvmfusefs.m4 ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/man/ ----------------------------------------------------------- man1/ man3/ ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/man/man1/ ----------------------------------------------------------- pvmfs_intro.1 ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/man/man3/ ----------------------------------------------------------- getdefiomode.3 getiomode.3 getioorder.3 setdefiomode.3 setiomode.3 setioorder.3 ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/patches/ ----------------------------------------------------------- README.FS pvm3.2.4.fspatch ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm3.2.4.fspatch/pvm3/pvmfs/ ----------------------------------------------------------- Makefile.aimk bitops.h fs.c fspro.c gop.c lmap.c map.h patchlevel.h ----------------------------------------------------------- # Diffs to add pvmfs to PVM version 3.2.4 (shar path: /netlib/pvm3/contrib/pvmfs/pvm324fs/ ----------------------------------------------------------- pvm3/ ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/ ----------------------------------------------------------- README.FS fsexamples/ lib/ libc/ libfpvm/ man/ patches/ pvmfs/ ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/fsexamples/ ----------------------------------------------------------- io/ iot/ ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/fsexamples/io/ ----------------------------------------------------------- CNVXN/ Makefile.aimk RS6K/ common_f_r.f common_f_w.f common_r.c common_stdc_r.c common_stdc_w.c common_w.c fstartup.f independent_f_r.f independent_f_w.f independent_r.c independent_stdc_r.c independent_stdc_w.c independent_w.c mkfiles.c startup.c syncBC_f_r.f syncBC_f_w.f syncBC_r.c syncBC_stdc_r.c syncBC_stdc_w.c syncBC_w.c syncseq_f_r.f syncseq_f_w.f syncseq_r.c syncseq_stdc_r.c syncseq_stdc_w.c syncseq_w.c wait4fs.c ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/fsexamples/io/CNVXN/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/fsexamples/io/RS6K/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/fsexamples/iot/ ----------------------------------------------------------- Makefile.aimk PMAX/ iot.c ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/fsexamples/iot/PMAX/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/lib/ ----------------------------------------------------------- debugger.screen debugger.xterm debugger2.screen debugger2.xterm ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/libc/ ----------------------------------------------------------- ALPHA/ CNVXN/ Makefile.aimk PMAX/ RS6K/ SUN4/ argtypes.h cc/ fs.h fsp.h malloc.c pipe.h posix.c pvmerrno.c pvmerrno.h pvmerrno.pl syscalls.c ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/libc/ALPHA/ ----------------------------------------------------------- errnoconf.h ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/libc/CNVXN/ ----------------------------------------------------------- errnoconf.h ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/libc/PMAX/ ----------------------------------------------------------- errnoconf.h ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/libc/RS6K/ ----------------------------------------------------------- Mfile errnoconf.h syscall-fake.h syscall.c syscall.exp ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/libc/SUN4/ ----------------------------------------------------------- errnoconf.h ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/libc/cc/ ----------------------------------------------------------- ccwrap.c regress.c ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/libfpvm/ ----------------------------------------------------------- pvmffstid.m4 pvmfgetdef.m4 pvmfgetiomode.m4 pvmfgetioord.m4 pvmfsetdef.m4 pvmfsetiomode.m4 pvmfsetioord.m4 pvmfusefs.m4 ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/man/ ----------------------------------------------------------- man1/ man3/ ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/man/man1/ ----------------------------------------------------------- pvmfs_intro.1 ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/man/man3/ ----------------------------------------------------------- getdefiomode.3 getiomode.3 getioorder.3 setdefiomode.3 setiomode.3 setioorder.3 ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/patches/ ----------------------------------------------------------- README.FS pvm3.2.4.fspatch ----------------------------------------------------------- path: /netlib/pvm3/contrib/pvmfs/pvm324fs/pvm3/pvmfs/ ----------------------------------------------------------- Makefile.aimk bitops.h fs.c fspro.c gop.c lmap.c map.h patchlevel.h ----------------------------------------------------------- # Diffs to add pvmfs to PVM version 3.2.5 (shar path: /netlib/pvm3/contrib/pvmfs/pvm325fs/ ----------------------------------------------------------- 3.2.5_to_3.2.5+pvmfs ----------------------------------------------------------- for Version 2.4 of PVM (old) path: /netlib/pvm3/pvm2.4/ ----------------------------------------------------------- # Papers describing PVM # ===================== # This directory contains a number of items relating to pvm and # HeNCE systems. To obtain a short (1 page) writeup on the projects # send mail to netlib@ornl.gov, in the mail message type: # send writeup.ps from pvm # To receive a copy of the # HeNCE index send email to netlib@ornl.gov and in the message # type: send index from hence. pvm_experiences # pvm_experiences : Describes graphical PVM interface, portable parallel programming on PVM, and visualization using ParaGraph. Presents results and experiences with two large, real-life, scientific computing applications. # NOTE: The user interface constructs have undergone numerous small # changes since the papers were written. To ensure that calling # conventions and argument lists are consistent with the # software, please do not use the descriptions in the papers # while developing PVM applications. Use the users guide instead. pvm_shar/ # pvm_shar : This is the source code for pvm. Version 2.4.2. Last updated 12/22/92 (901371 bytes). pvm_tar # pvm_tar : This is the source code for pvm.(tar; compress; uuencode) Version 2.4.2. Last updated 12/22/92 (396085 bytes). patch1_shar/ # This is a shar file of patches to version 2.4.1. Last updated 8/13/92 (122879 bytes). userguide_shar/ # userguide_shar : This is the users' guide for pvm. Last updated 7/29/91 (261274 bytes). refcard # This is a postscript file containing a quick reference card which describes the C and Fortran interface to PVM. Last updated 5/24/92 (79033 bytes). writeup.ps xab/ # Xab: A Tool for Monitoring PVM programs This directory contains a number of items relating to the Xab system. pvmug93 # This file contains information on the PVM USers' Group meeting May 10-11, 1993. ----------------------------------------------------------- # This is a shar file of patches to version 2.4.1. path: /netlib/pvm3/pvm2.4/patch1_shar/ ----------------------------------------------------------- patch_diffs patch_readme ----------------------------------------------------------- # pvm_shar : This is the source code for pvm. path: /netlib/pvm3/pvm2.4/pvm_shar/ ----------------------------------------------------------- pvm2.4/ ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/ ----------------------------------------------------------- Files Makefile Readme UpdMakfs aimk chol/ doc/ f2c/ fort_examp/ libfpvm/ man/ mandel/ src/ tsts/ ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/chol/ ----------------------------------------------------------- cholhost.c cholnode.c makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/doc/ ----------------------------------------------------------- Arches FAQ MsgFormats PvmPic Version ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/f2c/ ----------------------------------------------------------- CRAY/ CRAYSMP/ HP9K/ I860/ Makefile.body Makefile.custom NEXT/ PMAX/ RIOS/ Readme SUN3/ SUN4/ fbarrier.c fenroll.c fgetbytes.c fgetncplx.c fgetndcplx.c fgetndfloat.c fgetnfloat.c fgetnint.c fgetnlong.c fgetnshort.c fgetstring.c fgetstringl.c finithow.c finitiate.c finitiatem.c finitsend.c fleave.c fprobe.c fprobemulti.c fpstatus.c fputbytes.c fputncplx.c fputndcplx.c fputndfloat.c fputnfloat.c fputnint.c fputnlong.c fputnshort.c fputstring.c fputstringl.c fpvmperror.c frcv.c frcvinfo.c frcvmulti.c fready.c fsnd.c fstatus.c fterminate.c fvrcv.c fvrcvmulti.c fvsnd.c fwaituntil.c fwhoami.c namefix.h nulfix.h ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/f2c/CRAY/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/f2c/CRAYSMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/f2c/HP9K/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/f2c/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/f2c/NEXT/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/f2c/PMAX/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/f2c/RIOS/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/f2c/SUN3/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/f2c/SUN4/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/fort_examp/ ----------------------------------------------------------- CRAY/ HP9K/ Makefile.body PMAX/ RIOS/ RT/ Readme SGI/ SUN3/ SUN4/ SYMM/ TITN/ fhost.f node.f ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/fort_examp/CRAY/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/fort_examp/HP9K/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/fort_examp/PMAX/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/fort_examp/RIOS/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/fort_examp/RT/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/fort_examp/SGI/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/fort_examp/SUN3/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/fort_examp/SUN4/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/fort_examp/SYMM/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/fort_examp/TITN/ ----------------------------------------------------------- fhost.f makefile node.f ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/libfpvm/ ----------------------------------------------------------- BALANCE/ CRAY/ HP9K/ I860/ Makefile.body Makefile.custom NEXT/ PMAX/ RIOS/ RT/ Readme SGI/ SUN3/ SUN4/ SYMM/ TITN/ U370/ UVAX/ fbarrier.m4 fenroll.m4 fgetbytes.m4 fgetncplx.m4 fgetndcplx.m4 fgetndfloat.m4 fgetnfloat.m4 fgetnint.m4 fgetnlong.m4 fgetnshort.m4 fgetstring.m4 finithow.m4 finitiate.m4 finitiatem.m4 finitsend.m4 fleave.m4 fprobe.m4 fprobemulti.m4 fpstatus.m4 fputbytes.m4 fputncplx.m4 fputndcplx.m4 fputndfloat.m4 fputnfloat.m4 fputnint.m4 fputnlong.m4 fputnshort.m4 fputstring.m4 fpvmperror.m4 frcv.m4 frcvinfo.m4 frcvmulti.m4 fready.m4 fsnd.m4 fstatus.m4 fterminate.m4 ftocstr.c fvrcv.m4 fvrcvmulti.m4 fvsnd.m4 fwaituntil.m4 fwhoami.m4 pvm_consts.h ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/libfpvm/BALANCE/ ----------------------------------------------------------- BALANCE.m4 Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/libfpvm/CRAY/ ----------------------------------------------------------- CRAY.m4 Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/libfpvm/HP9K/ ----------------------------------------------------------- HP9K.m4 Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/libfpvm/I860/ ----------------------------------------------------------- I860.m4 Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/libfpvm/NEXT/ ----------------------------------------------------------- Makefile NEXT.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/libfpvm/PMAX/ ----------------------------------------------------------- Makefile PMAX.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/libfpvm/RIOS/ ----------------------------------------------------------- Makefile RIOS.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/libfpvm/RT/ ----------------------------------------------------------- Makefile RT.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/libfpvm/SGI/ ----------------------------------------------------------- Makefile SGI.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/libfpvm/SUN3/ ----------------------------------------------------------- Makefile SUN3.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/libfpvm/SUN4/ ----------------------------------------------------------- Makefile SUN4.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/libfpvm/SYMM/ ----------------------------------------------------------- Makefile SYMM.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/libfpvm/TITN/ ----------------------------------------------------------- Makefile TITN.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/libfpvm/U370/ ----------------------------------------------------------- Makefile U370.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/libfpvm/UVAX/ ----------------------------------------------------------- Makefile UVAX.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/man/ ----------------------------------------------------------- MkZeroes man1/ man3/ ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/man/man1/ ----------------------------------------------------------- pvm_intro.1 pvmd.1 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/man/man3/ ----------------------------------------------------------- barrier.3 enroll.3 get.3 initiate.3 initsend.3 leave.3 libpvm.3 probe.3 pstatus.3 put.3 pvm_mstat.3 pvm_perror.3 rcv.3 rcvinfo.3 ready.3 snd.3 status.3 terminate.3 vrcv.3 vsnd.3 waituntil.3 whoami.3 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/mandel/ ----------------------------------------------------------- Makefile Readme mandel_main.c mandel_tile.c xpx.c ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/ ----------------------------------------------------------- AFX8/ ALPHA/ BFLY/ C2MP/ C2MPCXFP/ CM2/ CM5/ CRAY/ CRAYSMP/ DGAV/ HP9K/ I386/ I860/ IPSC/ KSR1/ Makefile.body Makefile.custom NEXT/ PMAX/ RIOS/ RT/ SGI/ SUN3/ SUN3_3_5/ SUN4/ SYMM/ TITN/ UVAX/ VCM2/ archequiv.c cmd.c craypatch.h crunch.c fdsetpatch.h global.h host.c imalloc.c loclcomm.c loclcomm.h micomm.c micomm.h netside.c proc.c proc.h putenv.c pvmd.c pvmd.h pvmuser.h rem.h startup.c sunos3patch.h titanpatch.h ulib.c uliberr.c uside.c util.c wait.c wait.h xenixpatch.h ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/AFX8/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/ALPHA/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/BFLY/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/C2MP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/C2MPCXFP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/CM2/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/CM5/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/CRAY/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/CRAYSMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/DGAV/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/HP9K/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/I386/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/IPSC/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/KSR1/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/NEXT/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/PMAX/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/RIOS/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/RT/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/SGI/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/SUN3/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/SUN3_3_5/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/SUN4/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/SYMM/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/TITN/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/UVAX/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/src/VCM2/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/pvm_shar/pvm2.4/tsts/ ----------------------------------------------------------- Makefile Readme askinit.c barrtest.c check.c check_slave.c conf.c enrolltest.c timing.c timing_slave.c whome.c ----------------------------------------------------------- # userguide_shar : This is the users' guide for path: /netlib/pvm3/pvm2.4/userguide_shar/ ----------------------------------------------------------- Readme abstract.tex example.1 example.2 example.3 example.4 fig.1 fig1.ps psfig.sty table.1 table.2 table.3 tm.ps tm.sty tm.tex user_guide.tex ----------------------------------------------------------- # Xab: A Tool for Monitoring PVM programs This path: /netlib/pvm3/pvm2.4/xab/ ----------------------------------------------------------- # Xab: A Tool for Monitoring PVM programs # ======================================= # This directory contains a number of items relating to the # Xab system. If you have questions of comments on Xab # send email to xab@psc.edu # Source code for Xab # =================== xab/ # Compressed tarfile of Xab source Only xnetlib users can request this file, e-mail netlib users please request uu version below. xab-post/ # Compressed tarfile of a post processor of xab events that removes tachyons from xab tracefiles Only xnetlib users can request this file, e-mail netlib users please request uu version below. # Paper describing Xab # ==================== xab_hp93.ps # Compressed postscript paper from HP 93 describing Xab Only xnetlib users can request this file, e-mail netlib users please request uu version below. xab_avail # Instructions on how to extract the Xab tar file and the paper. ----------------------------------------------------------- # Compressed tarfile of a post processor of xab path: /netlib/pvm3/pvm2.4/xab/xab-post/ ----------------------------------------------------------- xab-post/ ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab-post/xab-post/ ----------------------------------------------------------- Makefile README ab-post.h xab-post-dag.c xab-post-io.c xab-post-sort.c ----------------------------------------------------------- # Compressed tarfile of Xab source path: /netlib/pvm3/pvm2.4/xab/xab/ ----------------------------------------------------------- .pgrc README examples/ libxpvm/ src/ ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/examples/ ----------------------------------------------------------- chol/ fort_examp/ tracefiles/ ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/examples/chol/ ----------------------------------------------------------- cholhost.c cholnode.c makefile xab.h ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/examples/fort_examp/ ----------------------------------------------------------- CRAY/ HP9K/ Makefile Makefile.body PMAX/ RIOS/ RT/ Readme SGI/ SUN3/ SUN4/ SYMM/ TITN/ fhost.f node.f ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/examples/fort_examp/CRAY/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/examples/fort_examp/HP9K/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/examples/fort_examp/PMAX/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/examples/fort_examp/RIOS/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/examples/fort_examp/RT/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/examples/fort_examp/SGI/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/examples/fort_examp/SUN3/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/examples/fort_examp/SUN4/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/examples/fort_examp/SYMM/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/examples/fort_examp/TITN/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/examples/tracefiles/ ----------------------------------------------------------- chol.trf chol.xab fort-10.trf fort-10.xab fort-15.trf fort-15.xab pg.aw pg2.aw topg water.trf water.xab ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/libxpvm/ ----------------------------------------------------------- BALANCE/ CRAY/ HP9K/ I860/ Makefile.body Makefile.custom NEXT/ PMAX/ RIOS/ RT/ Readme SGI/ SUN3/ SUN4/ SYMM/ TITN/ U370/ UVAX/ fbarrier.m4 fenroll.m4 fgetbytes.m4 fgetncplx.m4 fgetndcplx.m4 fgetndfloat.m4 fgetnfloat.m4 fgetnint.m4 fgetnlong.m4 fgetnshort.m4 fgetstring.m4 finithow.m4 finitiate.m4 finitiatem.m4 finitsend.m4 fleave.m4 fprobe.m4 fprobemulti.m4 fpstatus.m4 fputbytes.m4 fputncplx.m4 fputndcplx.m4 fputndfloat.m4 fputnfloat.m4 fputnint.m4 fputnlong.m4 fputnshort.m4 fputstring.m4 fpvmperror.m4 frcv.m4 frcvinfo.m4 frcvmulti.m4 fready.m4 fsnd.m4 fstatus.m4 fterminate.m4 fvrcv.m4 fvrcvmulti.m4 fvsnd.m4 fwaituntil.m4 fwhoami.m4 pvm_consts.h pvmuser.h xab.h xabinc ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/libxpvm/BALANCE/ ----------------------------------------------------------- BALANCE.m4 Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/libxpvm/CRAY/ ----------------------------------------------------------- CRAY.m4 Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/libxpvm/HP9K/ ----------------------------------------------------------- HP9K.m4 Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/libxpvm/I860/ ----------------------------------------------------------- I860.m4 Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/libxpvm/NEXT/ ----------------------------------------------------------- Makefile NEXT.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/libxpvm/PMAX/ ----------------------------------------------------------- Makefile PMAX.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/libxpvm/RIOS/ ----------------------------------------------------------- Makefile RIOS.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/libxpvm/RT/ ----------------------------------------------------------- Makefile RT.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/libxpvm/SGI/ ----------------------------------------------------------- Makefile SGI.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/libxpvm/SUN3/ ----------------------------------------------------------- Makefile SUN3.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/libxpvm/SUN4/ ----------------------------------------------------------- Makefile SUN4.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/libxpvm/SYMM/ ----------------------------------------------------------- Makefile SYMM.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/libxpvm/TITN/ ----------------------------------------------------------- Makefile TITN.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/libxpvm/U370/ ----------------------------------------------------------- Makefile U370.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/libxpvm/UVAX/ ----------------------------------------------------------- Makefile UVAX.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/src/ ----------------------------------------------------------- CRAY/ Imakefile Makefile Makefile.generic PMAX/ PMAX_MACH/ README RIOS/ SUN4/ SUN4_MACH/ ab.h ab_utils.c ablib.c abmon.c bar.xbm bard.xbm both.h bstates.h clock.xbm con.xbm dis.xbm discon.xbm foo.trf foo.xab fwdstep.xbm get.xbm go.xbm mlist.h monitor.xbm pg.aw pg.old pg.old.aw pg2.aw probe.xbm put.xbm pvmuser.h rcv.xbm rcvd.xbm snd.xbm sndd.xbm stop.xbm testout topg utils.c w2.trf w2.xab xab.c xab.h xabmon.h xsetup.c xsizes.h ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/src/CRAY/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/src/PMAX/ ----------------------------------------------------------- Makefile w2.xab water.trf water.xab ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/src/PMAX_MACH/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/src/RIOS/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/src/SUN4/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm2.4/xab/xab/src/SUN4_MACH/ ----------------------------------------------------------- Makefile Makefile.BAK ----------------------------------------------------------- for Source code for PVM v3.2.6 path: /netlib/pvm3/pvm3.2.6/ ----------------------------------------------------------- Makefile Readme Readme.mpp conf/ console/ doc/ examples/ gexamples/ include/ lib/ libfpvm/ man/ patches/ pvmgs/ src/ xep/ ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/conf/ ----------------------------------------------------------- AFX8.def ALPHA.def ALPHA.m4 BAL.def BAL.m4 BFLY.def BFLY.m4 BSD386.def BSD386.m4 CM2.def CM2.m4 CM5.def CM5.m4 CNVX.def CNVX.m4 CNVXN.def CNVXN.m4 CRAY.def CRAY.m4 CRAY2.def CRAY2.m4 CRAYSMP.def CRAYSMP.m4 CUBE.def DGAV.def E88K.def HP300.def HP300.m4 HPPA.def HPPA.m4 I860.def I860.m4 I860I860.def I860SGI.def I860SUN4.def IPSC2.def IPSC2.m4 KSR1.def KSR1.m4 LINUX.def MASPAR.def MASPAR.m4 MIPS.def NEXT.def NEXT.m4 PGON.def PGON.m4 PMAX.def PMAX.m4 RS6K.def RS6K.m4 RT.def RT.m4 SGI.def SGI.m4 SUN3.def SUN3.m4 SUN4.def SUN4.m4 SUN4SOL2.def SUN4SOL2.m4 SYMM.def SYMM.m4 TITN.def TITN.m4 U370.def U370.m4 UVAX.def UVAX.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/console/ ----------------------------------------------------------- CUBE/ I860/ Makefile.aimk PGON/ cmd.h cmds.c cons.c job.c job.h myalloc.h ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/console/CUBE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/console/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/console/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/doc/ ----------------------------------------------------------- arches ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/examples/ ----------------------------------------------------------- CM5/ CUBE/ I860/ Makefile.aimk PGON/ Readme hello.c hello_other.c master1.c master1.f nntime.c slave1.c slave1.f spmd.c spmd.f testall.f timing.c timing_slave.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/examples/CM5/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/examples/CUBE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/examples/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/examples/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/gexamples/ ----------------------------------------------------------- Makefile ge.c gexamp.c gs.c joinleave.c thb.c tjf.c tjl.c tnb.c tst.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/include/ ----------------------------------------------------------- fpvm3.h pvm3.h ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/lib/ ----------------------------------------------------------- aimk cshrc.stub debugger debugger2 pvm pvmd pvmgetarch ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/libfpvm/ ----------------------------------------------------------- CUBE/ HPPA/ I860/ Makefile.aimk Makefile.mimd PGON/ ftocstr.c pvm_consts.h pvmfaddhost.m4 pvmfadvise.m4 pvmfbarrier.m4 pvmfbcast.m4 pvmfbufinfo.m4 pvmfconfig.m4 pvmfdelhost.m4 pvmfexit.m4 pvmffreebuf.m4 pvmfgetinst.m4 pvmfgetopt.m4 pvmfgetrbuf.m4 pvmfgetsbuf.m4 pvmfgettid.m4 pvmfgsize.m4 pvmfinitsend.m4 pvmfjoingrp.m4 pvmfkill.m4 pvmflvgrp.m4 pvmfmcast.m4 pvmfmkbuf.m4 pvmfmstat.m4 pvmfmytid.m4 pvmfnotify.m4 pvmfnrecv.m4 pvmfpack.m4 pvmfparent.m4 pvmfperror.m4 pvmfprobe.m4 pvmfpstat.m4 pvmfrecv.m4 pvmfsend.m4 pvmfsendsig.m4 pvmfserror.m4 pvmfsetopt.m4 pvmfsetrbuf.m4 pvmfsetsbuf.m4 pvmfspawn.m4 pvmftasks.m4 pvmftidtoh.m4 pvmfunpack.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/libfpvm/CUBE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/libfpvm/HPPA/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/libfpvm/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/libfpvm/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/man/ ----------------------------------------------------------- man1/ man3/ ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/man/man1/ ----------------------------------------------------------- pvm.1 pvm_intro.1 pvmd3.1 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/man/man3/ ----------------------------------------------------------- addhosts.3 advise.3 barrier.3 bcast.3 bufinfo.3 config.3 delhost.3 exit.3 freebuf.3 getinst.3 getopt.3 getrbuf.3 getsbuf.3 gettid.3 gsize.3 halt.3 initsend.3 joingroup.3 kill.3 lvgroup.3 mcast.3 mkbuf.3 mstat.3 mytid.3 notify.3 nrecv.3 pack.3 parent.3 perror.3 probe.3 pstat.3 recv.3 recvf.3 send.3 sendsig.3 serror.3 setopt.3 setrbuf.3 setsbuf.3 spawn.3 start_pvmd.3 tasks.3 tidtohost.3 unpack.3 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/patches/ ----------------------------------------------------------- 32patch01 32patch02 32patch03 32patch04 32patch05 32patch06 Contents README ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/pvmgs/ ----------------------------------------------------------- Makefile.aimk pvm_gstat.c pvm_gsulib.c pvmgdef.h pvmgroups.c pvmgs.c pvmgs.h ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/src/ ----------------------------------------------------------- CM5/ CUBE/ I860/ Makefile.aimk Makefile.mimd PGON/ archcode.c bfunc.h ddpro.c ddpro.h fromlib.h global.h host.c host.h imalloc.c listmac.h lpvm.c lpvmgen.c lpvmmimd.c lpvmpack.c mesg.c mesg.h nmdclass.c patchlevel.h pkt.c pkt.h protoglarp.h pvmalloc.c pvmalloc.h pvmcruft.c pvmd.c pvmdabuf.c pvmdabuf.h pvmfrag.c pvmfrag.h pvmlog.c pvmmimd.h pvmumbuf.c pvmumbuf.h startup.c task.c task.h tdpro.c tdpro.h tvdefs.h waitc.c waitc.h ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/src/CM5/ ----------------------------------------------------------- Makefile Makefile.cm5 pvmdmimd.c pvmhost.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/src/CUBE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/src/I860/ ----------------------------------------------------------- Makefile pvmdmimd.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/src/PGON/ ----------------------------------------------------------- Makefile pvmdmimd.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/xep/ ----------------------------------------------------------- CM5/ I860/ Makefile.aimk PGON/ PMAX/ bars.xbm mmain.c mtile.c neww.xbm quit.xbm redo.xbm xep.c zout.xbm ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/xep/CM5/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/xep/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/xep/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.2.6/xep/PMAX/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/ ----------------------------------------------------------- F Makefile Readme Readme.mp conf/ console/ doc/ examples/ gexamples/ hoster/ include/ lib/ libfpvm/ man/ patches/ pvmgs/ src/ tasker/ xep/ ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/conf/ ----------------------------------------------------------- AFX8.def ALPHA.def ALPHA.m4 ALPHAMP.def ALPHAMP.m4 BAL.def BAL.m4 BFLY.def BFLY.m4 BSD386.def BSD386.m4 CM2.def CM2.m4 CM5.def CM5.m4 CNVX.def CNVX.m4 CNVXN.def CNVXN.m4 CRAY.def CRAY.m4 CRAY2.def CRAY2.m4 CRAYSMP.def CRAYSMP.m4 CSPP.def CSPP.m4 CUBE.def DGAV.def E88K.def FREEBSD.def FREEBSD.m4 HP300.def HP300.m4 HPPA.def HPPA.m4 HPPAMP.def HPPAMP.m4 I860.def I860.m4 I860I860.def I860SGI.def I860SUN4.def IPSC2.def IPSC2.m4 KSR1.def KSR1.m4 LINUX.def LINUX.m4 MASPAR.def MASPAR.m4 MIPS.def MIPS.m4 NETBSDAMIGA.def NETBSDAMIGA.m4 NETBSDHP300.def NETBSDHP300.m4 NETBSDI386.def NETBSDI386.m4 NETBSDMAC68K.def NETBSDMAC68K.m4 NETBSDPMAX.def NETBSDPMAX.m4 NETBSDSPARC.def NETBSDSPARC.m4 NETBSDSUN3.def NETBSDSUN3.m4 NEXT.def NEXT.m4 PGON.def PGON.m4 PMAX.def PMAX.m4 RS6K.def RS6K.m4 RS6KMP.def RS6KMP.m4 RT.def RT.m4 SCO.def SGI.def SGI.m4 SGI5.def SGI5.m4 SGI64.def SGI64.m4 SGIMP.def SGIMP.m4 SGIMP64.def SGIMP64.m4 SP2MPI.def SP2MPI.m4 SUN3.def SUN3.m4 SUN4.def SUN4.m4 SUN4SOL2.def SUN4SOL2.m4 SUNMP.def SUNMP.m4 SX3.def SX3.m4 SYMM.def SYMM.m4 TITN.def TITN.m4 U370.def U370.m4 UTS2.def UTS2.m4 UVAX.def UVAX.m4 UXPM.def UXPM.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/console/ ----------------------------------------------------------- ALPHAMP/ CUBE/ I860/ Makefile.aimk PGON/ RS6KMP/ SGIMP/ SGIMP64/ SUNMP/ cmd.h cmds.c cons.c job.c job.h myalloc.h tevfmt.c tevfmt.h ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/console/ALPHAMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/console/CUBE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/console/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/console/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/console/RS6KMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/console/SGIMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/console/SGIMP64/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/console/SUNMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/doc/ ----------------------------------------------------------- arches bugreport example.pvmrc release-notes ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/examples/ ----------------------------------------------------------- CM5/ CSPP/ CUBE/ I860/ Makefile.aimk PGON/ RS6KMP/ Readme SGIMP/ SGIMP64/ SP2MPI/ SUNMP/ gexample.c gexample.f hello.c hello_other.c hitc.f hitc_slave.f master1.c master1.f nntime.c slave1.c slave1.f spmd.c spmd.f testall.f timing.c timing_slave.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/examples/CM5/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/examples/CSPP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/examples/CUBE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/examples/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/examples/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/examples/RS6KMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/examples/SGIMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/examples/SGIMP64/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/examples/SP2MPI/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/examples/SUNMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/gexamples/ ----------------------------------------------------------- CSPP/ Makefile Makefile.aimk PGON/ README frsg.f ge.c gexamp.c gs.c joinleave.c thb.c tjf.c tjl.c tnb.c trsg.c tst.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/gexamples/CSPP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/gexamples/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/hoster/ ----------------------------------------------------------- Makefile.aimk Readme hoster.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/include/ ----------------------------------------------------------- fpvm3.h pvm3.h pvmsdpro.h pvmtev.h ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/lib/ ----------------------------------------------------------- cshrc.stub debugger debugger2 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/libfpvm/ ----------------------------------------------------------- CSPP/ CUBE/ HPPA/ HPPAMP/ I860/ Makefile.aimk Makefile.mimd PGON/ RS6K/ ftocstr.c pvm_consts.h pvmfaddhost.m4 pvmfarchcode.m4 pvmfbarrier.m4 pvmfbcast.m4 pvmfbufinfo.m4 pvmfcatchout.m4 pvmfconfig.m4 pvmfdelhost.m4 pvmfexit.m4 pvmffreebuf.m4 pvmffrzgrp.m4 pvmfgather.m4 pvmfgetinst.m4 pvmfgetopt.m4 pvmfgetrbuf.m4 pvmfgetsbuf.m4 pvmfgettid.m4 pvmfgsize.m4 pvmfhalt.m4 pvmfhostsync.m4 pvmfinitsend.m4 pvmfjoingrp.m4 pvmfkill.m4 pvmflvgrp.m4 pvmfmcast.m4 pvmfmkbuf.m4 pvmfmstat.m4 pvmfmytid.m4 pvmfnotify.m4 pvmfnrecv.m4 pvmfpack.m4 pvmfparent.m4 pvmfperror.m4 pvmfprecv.m4 pvmfprobe.m4 pvmfpsend.m4 pvmfpstat.m4 pvmfrecv.m4 pvmfreduce.m4 pvmfscatter.m4 pvmfsend.m4 pvmfsendsig.m4 pvmfsetopt.m4 pvmfsetrbuf.m4 pvmfsetsbuf.m4 pvmfspawn.m4 pvmftasks.m4 pvmftidtoh.m4 pvmftrecv.m4 pvmfunpack.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/libfpvm/CSPP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/libfpvm/CUBE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/libfpvm/HPPA/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/libfpvm/HPPAMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/libfpvm/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/libfpvm/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/libfpvm/RS6K/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/man/ ----------------------------------------------------------- man1/ man3/ ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/man/man1/ ----------------------------------------------------------- aimk.1 pvm.1 pvm_intro.1 pvmd3.1 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/man/man3/ ----------------------------------------------------------- libfpvm.3 libpvm.3 pvm_addhosts.3 pvm_advise.3 pvm_archcode.3 pvm_barrier.3 pvm_bcast.3 pvm_bufinfo.3 pvm_catchout.3 pvm_config.3 pvm_delete.3 pvm_delhosts.3 pvm_exit.3 pvm_freebuf.3 pvm_freezegroup.3 pvm_gather.3 pvm_getfds.3 pvm_getinst.3 pvm_getmwid.3 pvm_getopt.3 pvm_getrbuf.3 pvm_getsbuf.3 pvm_gettid.3 pvm_gettmask.3 pvm_gsize.3 pvm_halt.3 pvm_hostsync.3 pvm_initsend.3 pvm_insert.3 pvm_joingroup.3 pvm_kill.3 pvm_lookup.3 pvm_lvgroup.3 pvm_mcast.3 pvm_mkbuf.3 pvm_mstat.3 pvm_mytid.3 pvm_notify.3 pvm_nrecv.3 pvm_pack.3 pvm_packf.3 pvm_parent.3 pvm_perror.3 pvm_pkbyte.3 pvm_pkcplx.3 pvm_pkdcplx.3 pvm_pkdouble.3 pvm_pkfloat.3 pvm_pkint.3 pvm_pklong.3 pvm_pkshort.3 pvm_pkstr.3 pvm_pkuint.3 pvm_pkulong.3 pvm_pkushort.3 pvm_precv.3 pvm_probe.3 pvm_psend.3 pvm_pstat.3 pvm_recv.3 pvm_recvf.3 pvm_reduce.3 pvm_reg_hoster.3 pvm_reg_rm.3 pvm_reg_tasker.3 pvm_scatter.3 pvm_send.3 pvm_sendsig.3 pvm_serror.3 pvm_setmwid.3 pvm_setopt.3 pvm_setrbuf.3 pvm_setsbuf.3 pvm_settmask.3 pvm_spawn.3 pvm_start_pvmd.3 pvm_tasks.3 pvm_tidtohost.3 pvm_trecv.3 pvm_unpack.3 pvm_unpackf.3 pvm_upkbyte.3 pvm_upkcplx.3 pvm_upkdcplx.3 pvm_upkdouble.3 pvm_upkfloat.3 pvm_upkint.3 pvm_upklong.3 pvm_upkshort.3 pvm_upkstr.3 pvm_upkuint.3 pvm_upkulong.3 pvm_upkushort.3 pvmfaddhost.3 pvmfadvise.3 pvmfarchcode.3 pvmfbarrier.3 pvmfbcast.3 pvmfbufinfo.3 pvmfcatchout.3 pvmfconfig.3 pvmfdelhost.3 pvmfexit.3 pvmffreebuf.3 pvmffrzgrp.3 pvmfgather.3 pvmfgetinst.3 pvmfgetopt.3 pvmfgetrbuf.3 pvmfgetsbuf.3 pvmfgettid.3 pvmfgsize.3 pvmfhalt.3 pvmfhostsync.3 pvmfinitsend.3 pvmfjoingrp.3 pvmfkill.3 pvmflvgrp.3 pvmfmcast.3 pvmfmkbuf.3 pvmfmstat.3 pvmfmytid.3 pvmfnotify.3 pvmfnrecv.3 pvmfpack.3 pvmfparent.3 pvmfperror.3 pvmfprecv.3 pvmfprobe.3 pvmfpsend.3 pvmfpstat.3 pvmfrecv.3 pvmfreduce.3 pvmfscatter.3 pvmfsend.3 pvmfsendsig.3 pvmfserror.3 pvmfsetopt.3 pvmfsetrbuf.3 pvmfsetsbuf.3 pvmfspawn.3 pvmftasks.3 pvmftidtoh.3 pvmftrecv.3 pvmfunpack.3 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/patches/ ----------------------------------------------------------- Contents README pvm330to1 pvm331to2 pvm332to3 pvm333to4 pvm334to5 pvm335to6 pvm336to7 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/pvmgs/ ----------------------------------------------------------- CUBE/ I860/ Makefile.aimk Makefile.mimd PGON/ pvm_gstat.c pvmgroups.c pvmgs_const.h pvmgs_core.c pvmgs_decl.h pvmgs_ds.h pvmgs_func.c pvmgs_mac.h pvmgsd.h pvmgsu_aux.c pvmgsu_core.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/pvmgs/CUBE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/pvmgs/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/pvmgs/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/src/ ----------------------------------------------------------- ALPHAMP/ CM5/ CSPP/ CUBE/ HPPAMP/ I860/ Makefile.aimk Makefile.mimd Makefile.shmem PGON/ RS6KMP/ SGIMP/ SGIMP64/ SP2MPI/ SUNMP/ amem.s bfunc.h ddpro.c ddpro.h fromlib.h global.h host.c host.h imalloc.c listmac.h lpvm.c lpvmcat.c lpvmgen.c lpvmmimd.c lpvmpack.c lpvmshmem.c mesg.c mesg.h nmdclass.c patchlevel.h pkt.c pkt.h protoglarp.h pvmalloc.c pvmalloc.h pvmarchc.c pvmcruft.c pvmd.c pvmdabuf.c pvmdabuf.h pvmdmp.h pvmdshmem.c pvmfrag.c pvmfrag.h pvmlog.c pvmmimd.h pvmshmem.c pvmshmem.h pvmumbuf.c pvmumbuf.h sdpro.c startup.c task.c task.h tdpro.c tdpro.h tevmac.h tvdefs.h waitc.c waitc.h ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/src/ALPHAMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/src/CM5/ ----------------------------------------------------------- Makefile Makefile.cm5 pvmdmimd.c pvmhost.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/src/CSPP/ ----------------------------------------------------------- Makefile Makefile.shmem ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/src/CUBE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/src/HPPAMP/ ----------------------------------------------------------- Makefile Makefile.shmem ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/src/I860/ ----------------------------------------------------------- Makefile pvmdmimd.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/src/PGON/ ----------------------------------------------------------- Makefile pvmdmimd.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/src/RS6KMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/src/SGIMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/src/SGIMP64/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/src/SP2MPI/ ----------------------------------------------------------- Makefile pvmdmimd.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/src/SUNMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/tasker/ ----------------------------------------------------------- Makefile.aimk tasker.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/xep/ ----------------------------------------------------------- CM5/ I860/ Makefile.aimk PGON/ PMAX/ bars.xbm mmain.c mtile.c neww.xbm quit.xbm redo.xbm xep.c zout.xbm ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/xep/CM5/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/xep/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/xep/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.8/xep/PMAX/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- for Source code for PVM version 3.3.9 path: /netlib/pvm3/pvm3.3.9/ ----------------------------------------------------------- Makefile Readme Readme.mp conf/ console/ doc/ examples/ gexamples/ hoster/ include/ lib/ libfpvm/ man/ patches/ pvmgs/ src/ tasker/ xep/ ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/conf/ ----------------------------------------------------------- AFX8.def ALPHA.def ALPHA.m4 ALPHAMP.def ALPHAMP.m4 BAL.def BAL.m4 BFLY.def BFLY.m4 BSD386.def BSD386.m4 CM2.def CM2.m4 CM5.def CM5.m4 CNVX.def CNVX.m4 CNVXN.def CNVXN.m4 CRAY.def CRAY.m4 CRAY2.def CRAY2.m4 CRAYSMP.def CRAYSMP.m4 CSPP.def CSPP.m4 CUBE.def DGAV.def E88K.def FREEBSD.def FREEBSD.m4 HP300.def HP300.m4 HPPA.def HPPA.m4 HPPAMP.def HPPAMP.m4 I860.def I860.m4 I860I860.def I860SGI.def I860SUN4.def IPSC2.def IPSC2.m4 KSR1.def KSR1.m4 LINUX.def LINUX.m4 MASPAR.def MASPAR.m4 MIPS.def MIPS.m4 NETBSDAMIGA.def NETBSDAMIGA.m4 NETBSDHP300.def NETBSDHP300.m4 NETBSDI386.def NETBSDI386.m4 NETBSDMAC68K.def NETBSDMAC68K.m4 NETBSDPMAX.def NETBSDPMAX.m4 NETBSDSPARC.def NETBSDSPARC.m4 NETBSDSUN3.def NETBSDSUN3.m4 NEXT.def NEXT.m4 PGON.def PGON.m4 PMAX.def PMAX.m4 RS6K.def RS6K.m4 RS6KMP.def RS6KMP.m4 RT.def RT.m4 SCO.def SGI.def SGI.m4 SGI5.def SGI5.m4 SGI64.def SGI64.m4 SGIMP.def SGIMP.m4 SGIMP64.def SGIMP64.m4 SP2MPI.def SP2MPI.m4 SUN3.def SUN3.m4 SUN4.def SUN4.m4 SUN4SOL2.def SUN4SOL2.m4 SUNMP.def SUNMP.m4 SX3.def SX3.m4 SYMM.def SYMM.m4 TITN.def TITN.m4 U370.def U370.m4 UTS2.def UTS2.m4 UVAX.def UVAX.m4 UXPM.def UXPM.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/console/ ----------------------------------------------------------- ALPHAMP/ CUBE/ I860/ Makefile.aimk PGON/ RS6KMP/ SGIMP/ SGIMP64/ SUNMP/ cmd.h cmds.c cons.c job.c job.h myalloc.h tevfmt.c tevfmt.h ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/console/ALPHAMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/console/CUBE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/console/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/console/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/console/RS6KMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/console/SGIMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/console/SGIMP64/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/console/SUNMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/doc/ ----------------------------------------------------------- arches bugreport example.pvmrc release-notes ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/examples/ ----------------------------------------------------------- CM5/ CSPP/ CUBE/ I860/ Makefile.aimk PGON/ RS6KMP/ Readme SGIMP/ SGIMP64/ SP2MPI/ SUNMP/ gexample.c gexample.f hello.c hello_other.c hitc.f hitc_slave.f master1.c master1.f nntime.c slave1.c slave1.f spmd.c spmd.f testall.f timing.c timing_slave.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/examples/CM5/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/examples/CSPP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/examples/CUBE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/examples/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/examples/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/examples/RS6KMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/examples/SGIMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/examples/SGIMP64/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/examples/SP2MPI/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/examples/SUNMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/gexamples/ ----------------------------------------------------------- CSPP/ Makefile Makefile.aimk PGON/ README frsg.f ge.c gexamp.c gs.c joinleave.c thb.c tjf.c tjl.c tnb.c trsg.c tst.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/gexamples/CSPP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/gexamples/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/hoster/ ----------------------------------------------------------- Makefile.aimk Readme hoster.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/include/ ----------------------------------------------------------- fpvm3.h pvm3.h pvmsdpro.h pvmtev.h ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/lib/ ----------------------------------------------------------- cshrc.stub debugger debugger2 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/libfpvm/ ----------------------------------------------------------- CSPP/ CUBE/ HPPA/ HPPAMP/ I860/ Makefile.aimk Makefile.mimd PGON/ RS6K/ ftocstr.c pvm_consts.h pvmfaddhost.m4 pvmfarchcode.m4 pvmfbarrier.m4 pvmfbcast.m4 pvmfbufinfo.m4 pvmfcatchout.m4 pvmfconfig.m4 pvmfdelhost.m4 pvmfexit.m4 pvmffreebuf.m4 pvmffrzgrp.m4 pvmfgather.m4 pvmfgetinst.m4 pvmfgetopt.m4 pvmfgetrbuf.m4 pvmfgetsbuf.m4 pvmfgettid.m4 pvmfgsize.m4 pvmfhalt.m4 pvmfhostsync.m4 pvmfinitsend.m4 pvmfjoingrp.m4 pvmfkill.m4 pvmflvgrp.m4 pvmfmcast.m4 pvmfmkbuf.m4 pvmfmstat.m4 pvmfmytid.m4 pvmfnotify.m4 pvmfnrecv.m4 pvmfpack.m4 pvmfparent.m4 pvmfperror.m4 pvmfprecv.m4 pvmfprobe.m4 pvmfpsend.m4 pvmfpstat.m4 pvmfrecv.m4 pvmfreduce.m4 pvmfscatter.m4 pvmfsend.m4 pvmfsendsig.m4 pvmfsetopt.m4 pvmfsetrbuf.m4 pvmfsetsbuf.m4 pvmfspawn.m4 pvmftasks.m4 pvmftidtoh.m4 pvmftrecv.m4 pvmfunpack.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/libfpvm/CSPP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/libfpvm/CUBE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/libfpvm/HPPA/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/libfpvm/HPPAMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/libfpvm/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/libfpvm/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/libfpvm/RS6K/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/man/ ----------------------------------------------------------- man1/ man3/ ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/man/man1/ ----------------------------------------------------------- aimk.1 pvm.1 pvm_intro.1 pvmd3.1 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/man/man3/ ----------------------------------------------------------- libfpvm.3 libpvm.3 pvm_addhosts.3 pvm_advise.3 pvm_archcode.3 pvm_barrier.3 pvm_bcast.3 pvm_bufinfo.3 pvm_catchout.3 pvm_config.3 pvm_delete.3 pvm_delhosts.3 pvm_exit.3 pvm_freebuf.3 pvm_freezegroup.3 pvm_gather.3 pvm_getfds.3 pvm_getinst.3 pvm_getmwid.3 pvm_getopt.3 pvm_getrbuf.3 pvm_getsbuf.3 pvm_gettid.3 pvm_gettmask.3 pvm_gsize.3 pvm_halt.3 pvm_hostsync.3 pvm_initsend.3 pvm_insert.3 pvm_joingroup.3 pvm_kill.3 pvm_lookup.3 pvm_lvgroup.3 pvm_mcast.3 pvm_mkbuf.3 pvm_mstat.3 pvm_mytid.3 pvm_notify.3 pvm_nrecv.3 pvm_pack.3 pvm_packf.3 pvm_parent.3 pvm_perror.3 pvm_pkbyte.3 pvm_pkcplx.3 pvm_pkdcplx.3 pvm_pkdouble.3 pvm_pkfloat.3 pvm_pkint.3 pvm_pklong.3 pvm_pkshort.3 pvm_pkstr.3 pvm_pkuint.3 pvm_pkulong.3 pvm_pkushort.3 pvm_precv.3 pvm_probe.3 pvm_psend.3 pvm_pstat.3 pvm_recv.3 pvm_recvf.3 pvm_reduce.3 pvm_reg_hoster.3 pvm_reg_rm.3 pvm_reg_tasker.3 pvm_scatter.3 pvm_send.3 pvm_sendsig.3 pvm_serror.3 pvm_setmwid.3 pvm_setopt.3 pvm_setrbuf.3 pvm_setsbuf.3 pvm_settmask.3 pvm_spawn.3 pvm_start_pvmd.3 pvm_tasks.3 pvm_tidtohost.3 pvm_trecv.3 pvm_unpack.3 pvm_unpackf.3 pvm_upkbyte.3 pvm_upkcplx.3 pvm_upkdcplx.3 pvm_upkdouble.3 pvm_upkfloat.3 pvm_upkint.3 pvm_upklong.3 pvm_upkshort.3 pvm_upkstr.3 pvm_upkuint.3 pvm_upkulong.3 pvm_upkushort.3 pvmfaddhost.3 pvmfadvise.3 pvmfarchcode.3 pvmfbarrier.3 pvmfbcast.3 pvmfbufinfo.3 pvmfcatchout.3 pvmfconfig.3 pvmfdelhost.3 pvmfexit.3 pvmffreebuf.3 pvmffrzgrp.3 pvmfgather.3 pvmfgetinst.3 pvmfgetopt.3 pvmfgetrbuf.3 pvmfgetsbuf.3 pvmfgettid.3 pvmfgsize.3 pvmfhalt.3 pvmfhostsync.3 pvmfinitsend.3 pvmfjoingrp.3 pvmfkill.3 pvmflvgrp.3 pvmfmcast.3 pvmfmkbuf.3 pvmfmstat.3 pvmfmytid.3 pvmfnotify.3 pvmfnrecv.3 pvmfpack.3 pvmfparent.3 pvmfperror.3 pvmfprecv.3 pvmfprobe.3 pvmfpsend.3 pvmfpstat.3 pvmfrecv.3 pvmfreduce.3 pvmfscatter.3 pvmfsend.3 pvmfsendsig.3 pvmfserror.3 pvmfsetopt.3 pvmfsetrbuf.3 pvmfsetsbuf.3 pvmfspawn.3 pvmftasks.3 pvmftidtoh.3 pvmftrecv.3 pvmfunpack.3 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/patches/ ----------------------------------------------------------- Contents README pvm330to1 pvm331to2 pvm332to3 pvm333to4 pvm334to5 pvm335to6 pvm336to7 pvm338to9 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/pvmgs/ ----------------------------------------------------------- CUBE/ I860/ Makefile.aimk Makefile.mimd PGON/ pvm_gstat.c pvmgroups.c pvmgs_const.h pvmgs_core.c pvmgs_decl.h pvmgs_ds.h pvmgs_func.c pvmgs_mac.h pvmgsd.h pvmgsu_aux.c pvmgsu_core.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/pvmgs/CUBE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/pvmgs/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/pvmgs/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/src/ ----------------------------------------------------------- ALPHAMP/ CM5/ CSPP/ CUBE/ HPPAMP/ I860/ Makefile.aimk Makefile.mimd Makefile.shmem PGON/ RS6KMP/ SGIMP/ SGIMP64/ SP2MPI/ SUNMP/ amem.s bfunc.h ddpro.c ddpro.h fromlib.h global.h host.c host.h imalloc.c listmac.h lpvm.c lpvmcat.c lpvmgen.c lpvmmimd.c lpvmpack.c lpvmshmem.c mesg.c mesg.h nmdclass.c patchlevel.h pkt.c pkt.h protoglarp.h pvmalloc.c pvmalloc.h pvmarchc.c pvmcruft.c pvmd.c pvmdabuf.c pvmdabuf.h pvmdmp.h pvmdshmem.c pvmfrag.c pvmfrag.h pvmlog.c pvmmimd.h pvmshmem.c pvmshmem.h pvmumbuf.c pvmumbuf.h sdpro.c startup.c task.c task.h tdpro.c tdpro.h tevmac.h tvdefs.h waitc.c waitc.h ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/src/ALPHAMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/src/CM5/ ----------------------------------------------------------- Makefile Makefile.cm5 pvmdmimd.c pvmhost.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/src/CSPP/ ----------------------------------------------------------- Makefile Makefile.shmem ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/src/CUBE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/src/HPPAMP/ ----------------------------------------------------------- Makefile Makefile.shmem ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/src/I860/ ----------------------------------------------------------- Makefile pvmdmimd.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/src/PGON/ ----------------------------------------------------------- Makefile pvmdmimd.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/src/RS6KMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/src/SGIMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/src/SGIMP64/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/src/SP2MPI/ ----------------------------------------------------------- Makefile pvmdmimd.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/src/SUNMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/tasker/ ----------------------------------------------------------- Makefile.aimk tasker.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/xep/ ----------------------------------------------------------- CM5/ I860/ Makefile.aimk PGON/ PMAX/ bars.xbm mmain.c mtile.c neww.xbm quit.xbm redo.xbm xep.c zout.xbm ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/xep/CM5/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/xep/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/xep/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3.9/xep/PMAX/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- for Source code for PVM base version 3.3 path: /netlib/pvm3/pvm3.3/ ----------------------------------------------------------- Makefile Readme Readme.mp conf/ console/ doc/ examples/ gexamples/ hoster/ include/ lib/ libfpvm/ man/ patches/ pvmgs/ src/ tasker/ xep/ ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/conf/ ----------------------------------------------------------- AFX8.def ALPHA.def ALPHA.m4 ALPHAMP.def ALPHAMP.m4 BAL.def BAL.m4 BFLY.def BFLY.m4 BSD386.def BSD386.m4 CM2.def CM2.m4 CM5.def CM5.m4 CNVX.def CNVX.m4 CNVXN.def CNVXN.m4 CRAY.def CRAY.m4 CRAY2.def CRAY2.m4 CRAYSMP.def CRAYSMP.m4 CUBE.def DGAV.def E88K.def HP300.def HP300.m4 HPPA.def HPPA.m4 I860.def I860.m4 I860I860.def I860SGI.def I860SUN4.def IPSC2.def IPSC2.m4 KSR1.def KSR1.m4 LINUX.def LINUX.m4 MASPAR.def MASPAR.m4 MIPS.def NEXT.def NEXT.m4 PGON.def PGON.m4 PMAX.def PMAX.m4 POWER4.def POWER4.m4 RS6K.def RS6K.m4 RT.def RT.m4 SGI.def SGI.m4 SGI5.def SGI5.m4 SGIMP.def SGIMP.m4 SUN3.def SUN3.m4 SUN4.def SUN4.m4 SUN4SOL2.def SUN4SOL2.m4 SUNMP.def SUNMP.m4 SYMM.def SYMM.m4 TITN.def TITN.m4 U370.def U370.m4 UVAX.def UVAX.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/console/ ----------------------------------------------------------- ALPHAMP/ CUBE/ I860/ Makefile.aimk PGON/ SGIMP/ SUNMP/ cmd.h cmds.c cons.c job.c job.h myalloc.h tevfmt.c tevfmt.h ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/console/ALPHAMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/console/CUBE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/console/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/console/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/console/SGIMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/console/SUNMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/doc/ ----------------------------------------------------------- arches bugreport example.pvmrc release-notes ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/examples/ ----------------------------------------------------------- CM5/ CUBE/ I860/ Makefile.aimk PGON/ Readme SGIMP/ SUNMP/ gexample.c gexample.f hello.c hello_other.c hitc.f hitc_slave.f master1.c master1.f nntime.c slave1.c slave1.f spmd.c spmd.f testall.f timing.c timing_slave.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/examples/CM5/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/examples/CUBE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/examples/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/examples/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/examples/SGIMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/examples/SUNMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/gexamples/ ----------------------------------------------------------- Makefile ge.c gexamp.c gs.c joinleave.c thb.c tjf.c tjl.c tnb.c tst.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/hoster/ ----------------------------------------------------------- Makefile.aimk Readme hoster.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/include/ ----------------------------------------------------------- fpvm3.h pvm3.h pvmsdpro.h pvmtev.h ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/lib/ ----------------------------------------------------------- cshrc.stub debugger debugger2 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/libfpvm/ ----------------------------------------------------------- CUBE/ HPPA/ I860/ Makefile.aimk Makefile.mimd PGON/ ftocstr.c pvm_consts.h pvmfaddhost.m4 pvmfarchcode.m4 pvmfbarrier.m4 pvmfbcast.m4 pvmfbufinfo.m4 pvmfcatchout.m4 pvmfconfig.m4 pvmfdelhost.m4 pvmfexit.m4 pvmffreebuf.m4 pvmfgather.m4 pvmfgetinst.m4 pvmfgetopt.m4 pvmfgetrbuf.m4 pvmfgetsbuf.m4 pvmfgettid.m4 pvmfgsize.m4 pvmfhalt.m4 pvmfhostsync.m4 pvmfinitsend.m4 pvmfjoingrp.m4 pvmfkill.m4 pvmflvgrp.m4 pvmfmcast.m4 pvmfmkbuf.m4 pvmfmstat.m4 pvmfmytid.m4 pvmfnotify.m4 pvmfnrecv.m4 pvmfpack.m4 pvmfparent.m4 pvmfperror.m4 pvmfprecv.m4 pvmfprobe.m4 pvmfpsend.m4 pvmfpstat.m4 pvmfrecv.m4 pvmfreduce.m4 pvmfscatter.m4 pvmfsend.m4 pvmfsendsig.m4 pvmfsetopt.m4 pvmfsetrbuf.m4 pvmfsetsbuf.m4 pvmfspawn.m4 pvmftasks.m4 pvmftidtoh.m4 pvmftrecv.m4 pvmfunpack.m4 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/libfpvm/CUBE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/libfpvm/HPPA/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/libfpvm/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/libfpvm/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/man/ ----------------------------------------------------------- man1/ man3/ ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/man/man1/ ----------------------------------------------------------- aimk.1 pvm.1 pvm_intro.1 pvmd3.1 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/man/man3/ ----------------------------------------------------------- pvm_addhosts.3 pvm_advise.3 pvm_archcode.3 pvm_barrier.3 pvm_bcast.3 pvm_bufinfo.3 pvm_catchout.3 pvm_config.3 pvm_delhosts.3 pvm_exit.3 pvm_freebuf.3 pvm_gather.3 pvm_getinst.3 pvm_getopt.3 pvm_getrbuf.3 pvm_getsbuf.3 pvm_gettid.3 pvm_gsize.3 pvm_halt.3 pvm_hostsync.3 pvm_initsend.3 pvm_joingroup.3 pvm_kill.3 pvm_lvgroup.3 pvm_mcast.3 pvm_mkbuf.3 pvm_mstat.3 pvm_mytid.3 pvm_notify.3 pvm_nrecv.3 pvm_pack.3 pvm_parent.3 pvm_perror.3 pvm_precv.3 pvm_probe.3 pvm_psend.3 pvm_pstat.3 pvm_recv.3 pvm_recvf.3 pvm_reduce.3 pvm_reg_hoster.3 pvm_reg_rm.3 pvm_reg_tasker.3 pvm_scatter.3 pvm_send.3 pvm_sendsig.3 pvm_serror.3 pvm_setmwid.3 pvm_setopt.3 pvm_setrbuf.3 pvm_setsbuf.3 pvm_settmask.3 pvm_spawn.3 pvm_start_pvmd.3 pvm_tasks.3 pvm_tidtohost.3 pvm_trecv.3 pvm_unpack.3 ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/patches/ ----------------------------------------------------------- README ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/pvmgs/ ----------------------------------------------------------- CUBE/ I860/ Makefile.aimk Makefile.mimd pvm_gstat.c pvm_gsulib.c pvmgdef.h pvmgroups.c pvmgs.c pvmgs.h ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/pvmgs/CUBE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/pvmgs/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/src/ ----------------------------------------------------------- ALPHAMP/ CM5/ CUBE/ I860/ Makefile.aimk Makefile.mimd Makefile.shmem PGON/ SGIMP/ SUNMP/ bfunc.h ddpro.c ddpro.h fromlib.h global.h host.c host.h imalloc.c listmac.h lpvm.c lpvmcat.c lpvmgen.c lpvmmimd.c lpvmpack.c lpvmshmem.c mesg.c mesg.h nmdclass.c patchlevel.h pkt.c pkt.h protoglarp.h pvmalloc.c pvmalloc.h pvmarchc.c pvmcruft.c pvmd.c pvmdabuf.c pvmdabuf.h pvmdmp.h pvmdshmem.c pvmfrag.c pvmfrag.h pvmlog.c pvmmimd.h pvmshmem.c pvmshmem.h pvmumbuf.c pvmumbuf.h sdpro.c startup.c task.c task.h tdpro.c tdpro.h tevmac.h tvdefs.h waitc.c waitc.h ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/src/ALPHAMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/src/CM5/ ----------------------------------------------------------- Makefile Makefile.cm5 pvmdmimd.c pvmhost.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/src/CUBE/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/src/I860/ ----------------------------------------------------------- Makefile pvmdmimd.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/src/PGON/ ----------------------------------------------------------- Makefile pvmdmimd.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/src/SGIMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/src/SUNMP/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/tasker/ ----------------------------------------------------------- Makefile.aimk tasker.c ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/xep/ ----------------------------------------------------------- CM5/ I860/ Makefile.aimk PGON/ PMAX/ bars.xbm mmain.c mtile.c neww.xbm quit.xbm redo.xbm xep.c zout.xbm ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/xep/CM5/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/xep/I860/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/xep/PGON/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- path: /netlib/pvm3/pvm3.3/xep/PMAX/ ----------------------------------------------------------- Makefile ----------------------------------------------------------- for testing PVM path: /netlib/pvm3/pvm_test/ ----------------------------------------------------------- PVM_TEST_TO_TAR/ ----------------------------------------------------------- path: /netlib/pvm3/pvm_test/PVM_TEST_TO_TAR/ ----------------------------------------------------------- Makefile Makefile.cm5 Makefile.pgon Makefile.sp2 README doc/ message_passing.c module_list.h pvm_test.c pvm_test.h pvm_test_gui pvm_test_slave.c sample.input test_list.c test_list.h test_util.c version_slave.c ----------------------------------------------------------- path: /netlib/pvm3/pvm_test/PVM_TEST_TO_TAR/doc/ ----------------------------------------------------------- pvm_testdoc.ps ----------------------------------------------------------- for This program is designed to test PVM's important path: /netlib/pvm3/pvmtest.32/ ----------------------------------------------------------- test_suite/ ----------------------------------------------------------- path: /netlib/pvm3/pvmtest.32/test_suite/ ----------------------------------------------------------- Makefile Makefile% Makefile.cm5 Makefile.cm5_slv Makefile.pgon Makefile.pgon_slv Makefile.slv Makefile_gcc Makefile_gcc.slv Readme aimk inc.h infile path_file pvm_test.c pvm_testdoc.tex pvm_testlib.c pvm_testslv.c ----------------------------------------------------------- path: /netlib/pvm3/workshop.slides/ ----------------------------------------------------------- 01.title.id 02.agenda.id 03.team.id 04.pvmis.id 05.overview.id 06.majfeat.id 07.het.id 08.ports.id 09.evol.id 10.system1.id 11.system2.id 12.martian.id 13.newfor3a.id 14.newfor3b.id 15.netlib.id 16.using.id 17.install1.id 18.install2.id 19.gloss.id 20.hostfile.id 21.start.id 22.conf.id 23.programming.id 24.lpvm.id 25.pvm3.croutines1 26.pvm3.croutines2 27.pvm3.froutines1 28.pvm3.froutines2 29.errcode.id 30.message1.id 31.message2.id 32.message3.id 33.group.id 34.writing.id 35.hello.id 36.pll1.id 37.dandc.id 38.bot1.id 39.bot2.id 40.advise.id 41.getfds.id 42.message4.id 43.notify1.id 44.botm.id 45.debug1.id 46.debug2.id 47.imp.id 48.v3anatomy.id 49.imp-tid.id 50.imp-wait.id 51.imp-fdet.id 52.imp-ftol.id 53.tcpudp.id 54.imp-proto.id 55.v3132.id 56.wip.id 57.pvm3.future 58.bib.id ----------------------------------------------------------- for XPVM is a graphical console and monitor for PVM. path: /netlib/pvm3/xpvm/ ----------------------------------------------------------- # # X P V M # # XPVM is a graphical console and monitor for PVM. It provides a # graphical interface to the PVM console commands and information, # along with several animated views to monitor the execution of PVM # programs. These views provide information about the interactions # among tasks in a parallel PVM program, to assist in debugging and # performance tuning. # # To analyze a program using XPVM, a user need only compile their # program using the PVM library, version 3.3 or later, which has been # instrumented to capture tracing information at run-time. Then, any # task spawned from XPVM will return trace event information, for # analysis in real time, or for post-mortem playback from saved # trace files. # # # *** Source Code Distribution *** # *** v 1.1.1 *** # XPVM.src.1.1.1/ for Latest Complete Source code distribution for XPVM version 1.1.1 # (tar|compress|uuencode). (With patch from 1.1.0 to 1.1.1 already applied.) Last updated 7/27/95 (353065 bytes). XPVM.src.patch.110to111/ For Source Distribution Patch to take XPVM 1.1.0 to XPVM 1.1.1 # (tar|compress|uuencode). Last updated 7/27/95 (37070 bytes). # # *** Binary Distributions *** # *** v 1.1.1 *** # # No guarantees on these folks - compiled on our own vanilla # flavor for each of the given architectures. If they don't # work for you, then just grab the source distribution! :-) # # (Please feel free to send along any stable executables # for distribution on your architecture!) # XPVM.ALPHA.1.1.1/ for DEC Alpha binary distribution for XPVM 1.1.1 (tar|compress|uuencode). # Last updated 7/27/95 (1688631 bytes). XPVM.RS6K.1.1.1/ for IBM RS6000 binary distribution for XPVM 1.1.1 (tar|compress|uuencode). # Last updated 7/27/95 (1858444 bytes). XPVM.SGI5.1.1.1/ for SGI IRIX 5.3 binary distribution for XPVM 1.1.1 (tar|compress|uuencode). # Last updated 7/27/95 (1631238 bytes). XPVM.SUN4.1.1.1/ for SUN Sparc binary distribution for XPVM 1.1.1 (tar|compress|uuencode). # Last updated 7/27/95 (1343512 bytes). ----------------------------------------------------------- for DEC Alpha binary distribution for XPVM 1.1.1 path: /netlib/pvm3/xpvm/XPVM.ALPHA.1.1.1/ ----------------------------------------------------------- xpvm/ ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.ALPHA.1.1.1/xpvm/ ----------------------------------------------------------- Makefile README.arch src/ ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.ALPHA.1.1.1/xpvm/src/ ----------------------------------------------------------- ALPHA/ Makefile.aimk Makefile.xpvm README.arch cktcl cshrc.stub globck globs.tcl73.tk36.tclsrc globs.tcl74.tk40.tclsrc help/ procs.tcl tcl/ util.tcl xbm/ xpvm.tclsrc ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.ALPHA.1.1.1/xpvm/src/ALPHA/ ----------------------------------------------------------- xpvm ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.ALPHA.1.1.1/xpvm/src/help/ ----------------------------------------------------------- author.help halt.help hosts.help quit.help reset.help tasks_kill.help tasks_otf.help tasks_signal.help tasks_spawn.help tasks_systasks.help traces.help views_call_trace.help views_msgq.help views_network.help views_space_time.help views_task_output.help views_utilization.help xpvm.help ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.ALPHA.1.1.1/xpvm/src/tcl/ ----------------------------------------------------------- button.tcl dialog.tcl entry.tcl focus.tcl init.tcl listbox.tcl menu.tcl obsolete.tcl old/ optionMenu.tcl parray.tcl scale.tcl scrollbar.tcl tclIndex tearoff.tcl text.tcl tk.tcl tkerror.tcl ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.ALPHA.1.1.1/xpvm/src/tcl/old/ ----------------------------------------------------------- button.tcl dialog.tcl entry.tcl init.tcl listbox.tcl menu.tcl parray.tcl tclIndex text.tcl tk.tcl tkerror.tcl ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.ALPHA.1.1.1/xpvm/src/xbm/ ----------------------------------------------------------- adj.xbm alliant.xbm alpha.xbm alphamp.xbm cm2.xbm cm5.xbm cnvx.xbm convex.xbm cray.xbm cspp.xbm dec5200.xbm dummy_arch.xbm fastfwd.xbm fwd.xbm fwdstep.xbm grow.xbm hppa.xbm i860.xbm ipsc2.xbm ksr1.xbm laptop.xbm linux.xbm next.xbm pgon.xbm pmax.xbm ptrd.xbm ptrl.xbm ptrr.xbm ptru.xbm rewind.xbm rs6k.xbm sequent.xbm sgi.xbm sgi5.xbm sgimp.xbm shrink.xbm smile.xbm sparc.xbm spin.xbm spin2.xbm spin3.xbm spin4.xbm stop.xbm sun3.xbm sun4.xbm sun4sol2.xbm sunmp.xbm symmetry.xbm zoom.swipe.l.xbm zoom.swipe.r.xbm zoom.swipe.xbm ----------------------------------------------------------- for IBM RS6000 binary distribution for XPVM 1.1.1 path: /netlib/pvm3/xpvm/XPVM.RS6K.1.1.1/ ----------------------------------------------------------- xpvm/ ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.RS6K.1.1.1/xpvm/ ----------------------------------------------------------- Makefile README.arch src/ ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.RS6K.1.1.1/xpvm/src/ ----------------------------------------------------------- Makefile.aimk Makefile.xpvm README.arch RS6K/ cktcl cshrc.stub globck globs.tcl73.tk36.tclsrc globs.tcl74.tk40.tclsrc help/ procs.tcl tcl/ util.tcl xbm/ xpvm.tclsrc ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.RS6K.1.1.1/xpvm/src/RS6K/ ----------------------------------------------------------- xpvm ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.RS6K.1.1.1/xpvm/src/help/ ----------------------------------------------------------- author.help halt.help hosts.help quit.help reset.help tasks_kill.help tasks_otf.help tasks_signal.help tasks_spawn.help tasks_systasks.help traces.help views_call_trace.help views_msgq.help views_network.help views_space_time.help views_task_output.help views_utilization.help xpvm.help ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.RS6K.1.1.1/xpvm/src/tcl/ ----------------------------------------------------------- button.tcl dialog.tcl entry.tcl focus.tcl init.tcl listbox.tcl menu.tcl obsolete.tcl old/ optionMenu.tcl parray.tcl scale.tcl scrollbar.tcl tclIndex tearoff.tcl text.tcl tk.tcl tkerror.tcl ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.RS6K.1.1.1/xpvm/src/tcl/old/ ----------------------------------------------------------- button.tcl dialog.tcl entry.tcl init.tcl listbox.tcl menu.tcl parray.tcl tclIndex text.tcl tk.tcl tkerror.tcl ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.RS6K.1.1.1/xpvm/src/xbm/ ----------------------------------------------------------- adj.xbm alliant.xbm alpha.xbm alphamp.xbm cm2.xbm cm5.xbm cnvx.xbm convex.xbm cray.xbm cspp.xbm dec5200.xbm dummy_arch.xbm fastfwd.xbm fwd.xbm fwdstep.xbm grow.xbm hppa.xbm i860.xbm ipsc2.xbm ksr1.xbm laptop.xbm linux.xbm next.xbm pgon.xbm pmax.xbm ptrd.xbm ptrl.xbm ptrr.xbm ptru.xbm rewind.xbm rs6k.xbm sequent.xbm sgi.xbm sgi5.xbm sgimp.xbm shrink.xbm smile.xbm sparc.xbm spin.xbm spin2.xbm spin3.xbm spin4.xbm stop.xbm sun3.xbm sun4.xbm sun4sol2.xbm sunmp.xbm symmetry.xbm zoom.swipe.l.xbm zoom.swipe.r.xbm zoom.swipe.xbm ----------------------------------------------------------- for SGI IRIX 5.3 binary distribution for XPVM 1.1.1 path: /netlib/pvm3/xpvm/XPVM.SGI5.1.1.1/ ----------------------------------------------------------- xpvm/ ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.SGI5.1.1.1/xpvm/ ----------------------------------------------------------- Makefile README.arch src/ ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.SGI5.1.1.1/xpvm/src/ ----------------------------------------------------------- Makefile.aimk Makefile.xpvm README.arch SGI5/ cktcl cshrc.stub globck globs.tcl73.tk36.tclsrc globs.tcl74.tk40.tclsrc help/ procs.tcl tcl/ util.tcl xbm/ xpvm.tclsrc ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.SGI5.1.1.1/xpvm/src/SGI5/ ----------------------------------------------------------- xpvm ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.SGI5.1.1.1/xpvm/src/help/ ----------------------------------------------------------- author.help halt.help hosts.help quit.help reset.help tasks_kill.help tasks_otf.help tasks_signal.help tasks_spawn.help tasks_systasks.help traces.help views_call_trace.help views_msgq.help views_network.help views_space_time.help views_task_output.help views_utilization.help xpvm.help ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.SGI5.1.1.1/xpvm/src/tcl/ ----------------------------------------------------------- button.tcl dialog.tcl entry.tcl focus.tcl init.tcl listbox.tcl menu.tcl obsolete.tcl old/ optionMenu.tcl parray.tcl scale.tcl scrollbar.tcl tclIndex tearoff.tcl text.tcl tk.tcl tkerror.tcl ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.SGI5.1.1.1/xpvm/src/tcl/old/ ----------------------------------------------------------- button.tcl dialog.tcl entry.tcl init.tcl listbox.tcl menu.tcl parray.tcl tclIndex text.tcl tk.tcl tkerror.tcl ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.SGI5.1.1.1/xpvm/src/xbm/ ----------------------------------------------------------- adj.xbm alliant.xbm alpha.xbm alphamp.xbm cm2.xbm cm5.xbm cnvx.xbm convex.xbm cray.xbm cspp.xbm dec5200.xbm dummy_arch.xbm fastfwd.xbm fwd.xbm fwdstep.xbm grow.xbm hppa.xbm i860.xbm ipsc2.xbm ksr1.xbm laptop.xbm linux.xbm next.xbm pgon.xbm pmax.xbm ptrd.xbm ptrl.xbm ptrr.xbm ptru.xbm rewind.xbm rs6k.xbm sequent.xbm sgi.xbm sgi5.xbm sgimp.xbm shrink.xbm smile.xbm sparc.xbm spin.xbm spin2.xbm spin3.xbm spin4.xbm stop.xbm sun3.xbm sun4.xbm sun4sol2.xbm sunmp.xbm symmetry.xbm zoom.swipe.l.xbm zoom.swipe.r.xbm zoom.swipe.xbm ----------------------------------------------------------- for SUN Sparc binary distribution for XPVM 1.1.1 path: /netlib/pvm3/xpvm/XPVM.SUN4.1.1.1/ ----------------------------------------------------------- xpvm/ ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.SUN4.1.1.1/xpvm/ ----------------------------------------------------------- Makefile README.arch src/ ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.SUN4.1.1.1/xpvm/src/ ----------------------------------------------------------- Makefile.aimk Makefile.xpvm README.arch SUN4/ cktcl cshrc.stub globck globs.tcl73.tk36.tclsrc globs.tcl74.tk40.tclsrc help/ procs.tcl tcl/ util.tcl xbm/ xpvm.tclsrc ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.SUN4.1.1.1/xpvm/src/SUN4/ ----------------------------------------------------------- xpvm ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.SUN4.1.1.1/xpvm/src/help/ ----------------------------------------------------------- author.help halt.help hosts.help quit.help reset.help tasks_kill.help tasks_otf.help tasks_signal.help tasks_spawn.help tasks_systasks.help traces.help views_call_trace.help views_msgq.help views_network.help views_space_time.help views_task_output.help views_utilization.help xpvm.help ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.SUN4.1.1.1/xpvm/src/tcl/ ----------------------------------------------------------- button.tcl dialog.tcl entry.tcl focus.tcl init.tcl listbox.tcl menu.tcl obsolete.tcl old/ optionMenu.tcl parray.tcl scale.tcl scrollbar.tcl tclIndex tearoff.tcl text.tcl tk.tcl tkerror.tcl ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.SUN4.1.1.1/xpvm/src/tcl/old/ ----------------------------------------------------------- button.tcl dialog.tcl entry.tcl init.tcl listbox.tcl menu.tcl parray.tcl tclIndex text.tcl tk.tcl tkerror.tcl ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.SUN4.1.1.1/xpvm/src/xbm/ ----------------------------------------------------------- adj.xbm alliant.xbm alpha.xbm alphamp.xbm cm2.xbm cm5.xbm cnvx.xbm convex.xbm cray.xbm cspp.xbm dec5200.xbm dummy_arch.xbm fastfwd.xbm fwd.xbm fwdstep.xbm grow.xbm hppa.xbm i860.xbm ipsc2.xbm ksr1.xbm laptop.xbm linux.xbm next.xbm pgon.xbm pmax.xbm ptrd.xbm ptrl.xbm ptrr.xbm ptru.xbm rewind.xbm rs6k.xbm sequent.xbm sgi.xbm sgi5.xbm sgimp.xbm shrink.xbm smile.xbm sparc.xbm spin.xbm spin2.xbm spin3.xbm spin4.xbm stop.xbm sun3.xbm sun4.xbm sun4sol2.xbm sunmp.xbm symmetry.xbm zoom.swipe.l.xbm zoom.swipe.r.xbm zoom.swipe.xbm ----------------------------------------------------------- for Latest Complete Source code distribution for path: /netlib/pvm3/xpvm/XPVM.src.1.1.1/ ----------------------------------------------------------- xpvm/ ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.src.1.1.1/xpvm/ ----------------------------------------------------------- Makefile README src/ ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.src.1.1.1/xpvm/src/ ----------------------------------------------------------- Makefile Makefile.aimk Makefile.xpvm README cktcl commands.c compat.pvmtev.h compat.reverse.h compat.trace.c const.h cshrc.stub globck globs.tcl73.tk36.tclsrc globs.tcl74.tk40.tclsrc help/ message.c network.c procs.tcl pvm.c task.c tevmess.c tevsort.c trace.c trace.h ut.c util.c util.tcl xbm/ xpvm.c xpvm.h xpvm.tclsrc ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.src.1.1.1/xpvm/src/help/ ----------------------------------------------------------- author.help halt.help hosts.help quit.help reset.help tasks_kill.help tasks_otf.help tasks_signal.help tasks_spawn.help tasks_systasks.help traces.help views_call_trace.help views_msgq.help views_network.help views_space_time.help views_task_output.help views_utilization.help xpvm.help ----------------------------------------------------------- path: /netlib/pvm3/xpvm/XPVM.src.1.1.1/xpvm/src/xbm/ ----------------------------------------------------------- adj.xbm alliant.xbm alpha.xbm alphamp.xbm cm2.xbm cm5.xbm cnvx.xbm convex.xbm cray.xbm cspp.xbm dec5200.xbm dummy_arch.xbm fastfwd.xbm fwd.xbm fwdstep.xbm grow.xbm hppa.xbm i860.xbm ipsc2.xbm ksr1.xbm laptop.xbm linux.xbm next.xbm pgon.xbm pmax.xbm ptrd.xbm ptrl.xbm ptrr.xbm ptru.xbm rewind.xbm rs6k.xbm sequent.xbm sgi.xbm sgi5.xbm sgimp.xbm shrink.xbm smile.xbm sparc.xbm spin.xbm spin2.xbm spin3.xbm spin4.xbm stop.xbm sun3.xbm sun4.xbm sun4sol2.xbm sunmp.xbm symmetry.xbm zoom.swipe.l.xbm zoom.swipe.r.xbm zoom.swipe.xbm ----------------------------------------------------------- For Source Distribution Patch to take XPVM 1.1.0 to path: /netlib/pvm3/xpvm/XPVM.src.patch.110to111/ ----------------------------------------------------------- README.patch patch.src.110to111 ----------------------------------------------------------- for definite univariate integrals path: /netlib/quadpack/ ----------------------------------------------------------- .depend Makefile dependencies disclaimer dqc25s.f gams H2a2a2 qc25s.f gams H2a2a2 qage.f gams H2a1a1 for same as (quadpack/qag) but provides more information and control dqage.f gams H2a1a1 for same as (quadpack/dqag) but provides more information and control qagie.f gams H2a3a1,H2a4a1 for same as (quadpack/qagi) but provides more information and control dqagie.f gams H2a3a1,H2a4a1 for same as (quadpack/dqagi) but provides more information and control qagpe.f gams H2a2a1 for same as (quadpack/qagp) but provides more information and control dqagpe.f gams H2a2a1 for same as (quadpack/dqagp) but provides more information and control qagse.f gams H2a1a1 for same as (quadpack/qags) but provides more information and control dqagse.f gams H2a1a1 for same as (quadpack/dqags) but provides more information and control qawoe.f gams H2a2a1 for same as (quadpack/qawo) but provides more information and control dqawoe.f gams H2a2a1 for same as (quadpack/dqawo) but provides more information and control qawse.f gams H2a2a1 for same as (quadpack/qaws) but provides more information and control dqawse.f gams H2a2a1 for same as (quadpack/dqaws) but provides more information and control qawce.f gams H2a2a1,J4 for same as (quadpack/qawc) but provides more information and control dqawce.f gams H2a2a1,J4 for same as (quadpack/dqawc) but provides more information and control qawfe.f gams H2a3a1 for same as (quadpack/qawf) but provides more information and control dqawfe.f gams H2a3a1 for same as (quadpack/dqawf) but provides more information and control qag.f gams H2a1a1 for 1D globally adaptive integrator using Gauss-Kronrod quadrature, oscillating integrand prec single dqag.f gams H2a1a1 for 1D globally adaptive integrator using Gauss-Kronrod quadrature, oscillating integrand prec double qagi.f gams H2a3a1,H2a4a1 for 1D globally adaptive integrator, infinite intervals prec single dqagi.f gams H2a3a1,H2a4a1 for 1D globally adaptive integrator, infinite intervals prec double qagp.f gams H2a2a1 for 1D globally adaptive integrator, singularities or discontinuities prec single dqagp.f gams H2a2a1 for 1D globally adaptive integrator, singularities or discontinuities prec double qags.f gams H2a1a1 for 1D globally adaptive integrator using interval subdivision and extrapolation prec single dqags.f gams H2a1a1 for 1D globally adaptive integrator using interval subdivision and extrapolation prec double qawo.f gams H2a2a1 for 1D integration of cos(omega*x)*f(x) or sin(omega*x)*f(x) over a finite interval, adaptive subdivision with extrapolation prec single dqawo.f gams H2a2a1 for 1D integration of cos(omega*x)*f(x) or sin(omega*x)*f(x) over a finite interval, adaptive subdivision with extrapolation prec double qaws.f gams H2a2a1 for 1D integration of functions with powers and or logs over a finite interval prec single dqaws.f gams H2a2a1 for 1D integration of functions with powers and or logs over a finite interval prec double qawc.f gams H2a2a1,J4 for compute Cauchy principal value of f(x)/(x-c) over a finite interval prec single dqawc.f gams H2a2a1,J4 for compute Cauchy principal value of f(x)/(x-c) over a finite interval prec double qng.f gams H2a1a1 for 1D non-adaptive automatic integrator prec single dqng.f gams H2a1a1 for 1D non-adaptive automatic integrator prec double qawf.f gams H2a3a1 for Fourier sine/cosine transform for user supplied interval a to infinity prec single dqawf.f gams H2a3a1 for Fourier sine/cosine transform for user supplied interval a to infinity prec double qk15.f gams H2a1a2 for estimate 1D integral on finite interval using a 15 point rule and give error estimate, non-automatic prec single dqk15.f gams H2a1a2 for estimate 1D integral on finite interval using a 15 point rule and give error estimate, non-automatic prec double qk21.f gams H2a1a2 for estimate 1D integral on finite interval using a 21 point rule and give error estimate, non-automatic prec single dqk21.f gams H2a1a2 for estimate 1D integral on finite interval using a 21 point rule and give error estimate, non-automatic prec double qk31.f gams H2a1a2 for estimate 1D integral on finite interval using a 31 point rule and give error estimate, non-automatic prec single dqk31.f gams H2a1a2 for estimate 1D integral on finite interval using a 31 point rule and give error estimate, non-automatic prec double qk41.f gams H2a1a2 for estimate 1D integral on finite interval using a 41 point rule and give error estimate, non-automatic prec single dqk41.f gams H2a1a2 for estimate 1D integral on finite interval using a 41 point rule and give error estimate, non-automatic prec double qk51.f gams H2a1a2 for estimate 1D integral on finite interval using a 51 point rule and give error estimate, non-automatic prec single dqk51.f gams H2a1a2 for estimate 1D integral on finite interval using a 51 point rule and give error estimate, non-automatic prec double qk61.f gams H2a1a2 for estimate 1D integral on finite interval using a 61 point rule and give error estimate, non-automatic prec single dqk61.f gams H2a1a2 for estimate 1D integral on finite interval using a 61 point rule and give error estimate, non-automatic prec double qk15i.f gams H2a3a2,H2a4a2 for estimate 1D integral on (semi)infinite interval using a 15 point quadrature rule,non-automatic prec single dqk15i.f gams H2a3a2,H2a4a2 for estimate 1D integral on (semi)infinite interval using a 15 point quadrature rule,non-automatic prec double qk15w.f gams H2a2a2 for estimate 1D integral with special singular weight functions using a 15 point quadrature rule prec single dqk15w.f gams H2a2a2 for estimate 1D integral with special singular weight functions using a 15 point quadrature rule prec double qc25c.f gams H2a2a2,J4 for 1D integral for Cauchy principal values using a 25 point quadrature rule prec single dqc25c.f gams H2a2a2,J4 for 1D integral for Cauchy principal values using a 25 point quadrature rule prec double qmomo.f gams H2a2a1,C3a2 for 1D integration of k-th degree Chebyshev polynomial times a function with singularities prec single dqmomo.f gams H2a2a1,C3a2 for 1D integration of k-th degree Chebyshev polynomial times a function with singularities prec double qc25f.f gams H2a2a2 for 1D integral for sin/cos integrand using a 25 point quadrature rule prec single dqc25f.f gams H2a2a2 for 1D integral for sin/cos integrand using a 25 point quadrature rule prec double doc dqcheb.f dqelg.f dqpsrt.f dqwgtc.f dqwgtf.f dqwgts.f qcheb.f qelg.f qpsrt.f qwgtc.f qwgtf.f qwgts.f test/ readme ----------------------------------------------------------- path: /netlib/quadpack/test/ ----------------------------------------------------------- Makefile qng.f ----------------------------------------------------------- for random number generators path: /netlib/random/ ----------------------------------------------------------- # Do NOT use for cryptographic purposes. Read Internet RFC1750. zufall.f for uniform , gaussian, and poisson random number generation alg lagged (-273,-607) Fibonacci; Box-Muller; by W.P. Petersen, IPS, ETH Zuerich lang Cray Fortran zufall/ for uniform , gaussian, and poisson random number generation alg lagged (-273,-607) Fibonacci; Box-Muller; by W.P. Petersen, IPS, ETH Zuerich lang C 2drwtest.f for two-dimensional random walk test of pseudorandom numbers by I. Vattulainen ref Phys. Rev. Lett. 73, 2513 (1994). prec single/double nblocktest.f for n-block test of pseudorandom numbers by I. Vattulainen ref Phys. Rev. Lett. 73, 2513 (1994). prec single/double acorrtiw.f for 2-d Ising model and autocorrelation test of pseudorandom numbers alg Wolff updating by I. Vattulainen ref Phys. Rev. Lett. 73, 2513 (1994). prec single/double ranlib.f/ for random number generation from the distributions: beta, chi-square, exponential, F, gamma, multivariate normal, noncentral chi-square, noncentral F, univariate normal, uniform, binomial, negative binomial, multinomial, Poisson; also: random permutations of an integer array. by Barry W. Brown, James Lovato, Kathy Russell alg (base) L'Ecuyer and Cote, ACM TOMS 17:98-111 (1991) lang Fortran ranlib.c/ for random number generation from the distributions: beta, chi-square, exponential, F, gamma, multivariate normal, noncentral chi-square, noncentral F, univariate normal, uniform, binomial, negative binomial, multinomial, Poisson; also: random permutations of an integer array. by Barry W. Brown, James Lovato, Kathy Russell alg (base) L'Ecuyer and Cote, ACM TOMS 17:98-111 (1991) lang C dcdflib.f/ for cumulative distribution functions, inverses, and parameters for: beta, binomial, chi-square, noncentral chi-square, F, noncentral F, gamma, negative binomial, normal, Poisson, Student's t. alg various TOMS algorithms and Abramowitz&Stegun; Bux Dekker zero-finding by Barry W. Brown, James Lovato, Kathy Russell lang Fortran dcdflib.c/ for cumulative distribution functions, inverses, and parameters for: beta, binomial, chi-square, noncentral chi-square, F, noncentral F, gamma, negative binomial, normal, Poisson, Student's t. alg various TOMS algorithms and Abramowitz&Stegun; Bux Dekker zero-finding by Barry W. Brown, James Lovato, Kathy Russell lang C ----------------------------------------------------------- for cumulative distribution functions, inverses, and path: /netlib/random/dcdflib.c/ ----------------------------------------------------------- README doc/ src/ ----------------------------------------------------------- path: /netlib/random/dcdflib.c/doc/ ----------------------------------------------------------- dcdflib.chs dcdflib.fdoc dcdflib.h ----------------------------------------------------------- path: /netlib/random/dcdflib.c/src/ ----------------------------------------------------------- cdflib.h dcdflib.c ipmpar.c ----------------------------------------------------------- for cumulative distribution functions, inverses, and path: /netlib/random/dcdflib.f/ ----------------------------------------------------------- README doc/ src/ ----------------------------------------------------------- path: /netlib/random/dcdflib.f/doc/ ----------------------------------------------------------- dcdflib.chs dcdflib.fdoc ----------------------------------------------------------- path: /netlib/random/dcdflib.f/src/ ----------------------------------------------------------- algdiv.f alngam.f alnrel.f apser.f basym.f bcorr.f betaln.f bfrac.f bgrat.f bpser.f bratio.f brcmp1.f brcomp.f bup.f cdfbet.f cdfbin.f cdfchi.f cdfchn.f cdff.f cdffnc.f cdfgam.f cdfnbn.f cdfnor.f cdfpoi.f cdft.f cumbet.f cumbin.f cumchi.f cumchn.f cumf.f cumfnc.f cumgam.f cumnbn.f cumnor.f cumpoi.f cumt.f dbetrm.f devlpl.f dexpm1.f dinvnr.f dinvr.f dlanor.f dln1mx.f dln1px.f dlnbet.f dlngam.f dstrem.f dt1.f dzror.f erf.f erfc1.f esum.f exparg.f fpser.f gam1.f gaminv.f gamln.f gamln1.f gamma.f grat1.f gratio.f gsumln.f ipmpar.f psi.f rcomp.f rexp.f rlog.f rlog1.f spmpar.f stvaln.f ----------------------------------------------------------- for random number generation from the distributions: path: /netlib/random/ranlib.c/ ----------------------------------------------------------- README doc/ linpack/ src/ test/ ----------------------------------------------------------- path: /netlib/random/ranlib.c/doc/ ----------------------------------------------------------- Basegen.c.doc ranlib.c.chs ranlib.c.fdoc ----------------------------------------------------------- path: /netlib/random/ranlib.c/linpack/ ----------------------------------------------------------- linpack.c ----------------------------------------------------------- path: /netlib/random/ranlib.c/src/ ----------------------------------------------------------- com.c ranlib.c ranlib.h ----------------------------------------------------------- path: /netlib/random/ranlib.c/test/ ----------------------------------------------------------- ranlib.h tstbot.c tstgmn.c tstmid.c ----------------------------------------------------------- for random number generation from the distributions: path: /netlib/random/ranlib.f/ ----------------------------------------------------------- README doc/ linpack/ src/ test/ ----------------------------------------------------------- path: /netlib/random/ranlib.f/doc/ ----------------------------------------------------------- Basegen.doc ranlib.chs ranlib.fdoc ----------------------------------------------------------- path: /netlib/random/ranlib.f/linpack/ ----------------------------------------------------------- sdot.f spofa.f ----------------------------------------------------------- path: /netlib/random/ranlib.f/src/ ----------------------------------------------------------- advnst.f genbet.f genchi.f genexp.f genf.f gengam.f genmn.f genmul.f gennch.f gennf.f gennor.f genprm.f genunf.f getcgn.f getsd.f ignbin.f ignlgi.f ignnbn.f ignpoi.f ignuin.f initgn.f inrgcm.f lennob.f mltmod.f phrtsd.f qrgnin.f ranf.f setall.f setant.f setgmn.f setsd.f sexpo.f sgamma.f snorm.f ----------------------------------------------------------- path: /netlib/random/ranlib.f/test/ ----------------------------------------------------------- tstbot.f tstgmn.f tstmid.f ----------------------------------------------------------- for uniform , gaussian, and poisson random number path: /netlib/random/zufall/ ----------------------------------------------------------- READMEC zufall.c ----------------------------------------------------------- for small tools from Computing Science Research, path: /netlib/research/ ----------------------------------------------------------- # All software in this directory is Copyright AT&T. # Permission to use, copy, modify, and distribute this software for any # purpose without fee is hereby granted, provided that this entire # notice # is included in all copies of any software which is or includes a copy # or modification of this software and in all copies of the supporting # documentation for such software. # THIS SOFTWARE IS BEING PROVIDED "AS IS", WITHOUT ANY EXPRESS OR # IMPLIED # WARRANTY. IN PARTICULAR, NEITHER THE AUTHORS NOR AT&T MAKE ANY # REPRESENTATION OR WARRANTY OF ANY KIND CONCERNING THE MERCHANTABILITY # OF THIS SOFTWARE OR ITS FITNESS FOR ANY PARTICULAR PURPOSE. boilerplate for all software leaving AT&T cstr/ l2fit/ for least squares data fitting with user-specified model. by "one-liner" by Jon Bentley, calling optimizer by David Gay. cputimes.c by Bentley, Kernighan, Van Wyk ref (Feb 1991) "A Simple Cost Model for C", Unix Review. decryptdb.c for program for decrypting entries in SIAM membership list ref "send 91-12 from research/nam" by Feigenbaum, Grosse, and Reeds nam/ siamdb.enc for encrypted SIAM membership list size 1.4 MB # DO NOT REQUEST BY EMAIL, USE FTP! siamdb for sample database (uuencoded) of encrypted SIAM membership list awk.bundle/ for awk source code by Aho, Kernighan, Weinberger awkbookcode/ for programs from the awk book, ref "The AWK Programming Language" by Aho, Kernighan, and Weinberger plauger_chk.c for checking whether a file is likely to survive email by Grosse alg Plauger anim.bundle/ for algorithm animation by Bentley & Kernighan size 343 kB shm/ for shared memory utilities by Eric Grosse oldcputimes.c stoclist93.ps copt/ for very simple retargetable peephole optimizer (for compilers) by Chris Fraser lang C sam/ for the Sam editor by Rob Pike, now maintained by Bob Flandrena size 976 kB metapost/ for a graphics language based on METAFONT, but with PostScript output by John Hobby size 1.2 MB # DO NOT REQUEST BY EMAIL, USE FTP! ----------------------------------------------------------- for algorithm animation path: /netlib/research/anim.bundle/ ----------------------------------------------------------- Makefile README anim.c develop fdevelop.c int.def isort.gen libXg.bundle movie movie.1 newer.c qsort.i qsort.s script.def show.clicks stills stills.awk stills.def test.i test.s view.clicks ----------------------------------------------------------- for awk source code path: /netlib/research/awk.bundle/ ----------------------------------------------------------- FIXES README awk.1 awk.g.y awk.h awk.lx.l b.c lib.c main.c makefile maketab.c parse.c proto.h run.c tran.c ----------------------------------------------------------- for programs from the awk book, path: /netlib/research/awkbookcode/ ----------------------------------------------------------- # This contains all the programs from The AWK Programming Language, # by Aho, Kernighan and Weinberger (Addison-Wesley, 1988). # They have been packed by the bundle program found on page 81, # and can be unpacked by the unbundle on page 82, also included # here. A text editor will also do this pretty easily. ch1 ch2 ch3 ch4 ch5 ch6 ch7 unbundle.awk ----------------------------------------------------------- for very simple retargetable peephole optimizer (for path: /netlib/research/copt/ ----------------------------------------------------------- copt.1 copt.c rules test.s ----------------------------------------------------------- path: /netlib/research/cstr/ ----------------------------------------------------------- readme ----------------------------------------------------------- for least squares data fitting with user-specified path: /netlib/research/l2fit/ ----------------------------------------------------------- README gen.data l2fit ----------------------------------------------------------- for a graphics language based on METAFONT, but with path: /netlib/research/metapost/ ----------------------------------------------------------- CHANGES DISCLAIMER Makefile NOTICE README VERSION defaults.h doc/ mp/ mplib/ mpware/ site.h ----------------------------------------------------------- path: /netlib/research/metapost/doc/ ----------------------------------------------------------- agepop91.d agepopm.d countries.d demo.ms energy.d examples.mp figs.1 figs.mp lead.d manfig.mp matmul.d mp.1 mpgraph.dvi mpgraph.mp mpgraph.ps mpintro.bib mpintro.tex mpman.dvi mpman.ps timepop.d ----------------------------------------------------------- path: /netlib/research/metapost/mp/ ----------------------------------------------------------- Makefile convert fix.lex fixcoerce.h ini_to_trap mathtest.c mp.ch mp.def mp.h mp.web mpext.c mpmath.c pathexp.c pmath.c test_mpd.h time.c trapdir/ trapmp ----------------------------------------------------------- path: /netlib/research/metapost/mp/trapdir/ ----------------------------------------------------------- README mtrap.0 mtrap.1 mtrap.log mtrap.mp trap.148 trap.149 trap.150 trap.151 trap.197 trap.200 trap.5 trap.6 trap.fot trap.log trap.mp trap.mpx trap.pl trap1.in trap2.in trapf.pl trapin.log writeo writeo.2 ----------------------------------------------------------- path: /netlib/research/metapost/mplib/ ----------------------------------------------------------- TEX.mp boxes.mp charlib/ format.mp graph.mp marith.mp mfplain.mp mproof.tex plain.mp psfonts.map rboxes.mp sarith.mp string.mp texnum.mp trchars.adj trfonts.map troffnum.mp ----------------------------------------------------------- path: /netlib/research/metapost/mplib/charlib/ ----------------------------------------------------------- 12 14 34 Ao Fi Fl L1 LH Lb Sl ao bx ci ff lh ob rh sq ~= ----------------------------------------------------------- path: /netlib/research/metapost/mpware/ ----------------------------------------------------------- Makefile convert dmp.c dvimpext.c dvitomp.ch dvitomp.web makempx mptotex.c mptotr.c mpware.def mpware.h newer.c testex.err testex.mp testex.tex troffmpx ----------------------------------------------------------- path: /netlib/research/nam/ ----------------------------------------------------------- readme ----------------------------------------------------------- for the Sam editor path: /netlib/research/sam/ ----------------------------------------------------------- Makefile README boilerplate doc/ include/ libXg/ libframe/ sam/ samterm/ version ----------------------------------------------------------- path: /netlib/research/sam/doc/ ----------------------------------------------------------- Sam.ad add.3 balloc.3 bitblt.3 bitmap.6 cachechars.3 event.3 font.4 frame.3 graphics.3 keyboard.4 regexp.6 rgbpix.3 rune.3 sam.1 sam.ps sam.tut.ms se.ps utf.4 ----------------------------------------------------------- path: /netlib/research/sam/include/ ----------------------------------------------------------- frame.h libc.h libg.h u.h ----------------------------------------------------------- path: /netlib/research/sam/libXg/ ----------------------------------------------------------- Gwin.h GwinP.h Make.BSDi Make.aix Make.apollo Make.convex Make.dec Make.dynix Make.hpux Make.irix Make.irix5 Make.mips Make.osf Make.ptx Make.solaris Make.sun Make.v10 Makefile arc.c arith.c balloc.c bitblt.c bitbltclip.c border.c bscreenrect.c circle.c clipline.c clipr.c copymasked.c cursorset.c cursorswitch.c disc.c ellipse.c font.c gcs.c getrect.c gwin.c latin1.c ldconvert.c libgint.h menuhit.c mkfont.c point.c polysegment.c rdbitmap.c rdbitmapfile.c rdfontfile.c rectclip.c rune.c segment.c string.c strwidth.c test.c texture.c wrbitmap.c wrbitmapfile.c xtbinit.c ----------------------------------------------------------- path: /netlib/research/sam/libframe/ ----------------------------------------------------------- Make.BSDi Make.aix Make.apollo Make.convex Make.dec Make.dynix Make.hpux Make.irix Make.irix5 Make.mips Make.osf Make.ptx Make.solaris Make.sun Make.v10 Makefile frbox.c frdelete.c frdraw.c frinit.c frinsert.c frptofchar.c frselect.c frstr.c frutil.c misc.c ----------------------------------------------------------- path: /netlib/research/sam/sam/ ----------------------------------------------------------- B.rc Make.BSDi Make.aix Make.apollo Make.convex Make.dec Make.dynix Make.hpux Make.irix Make.irix5 Make.mips Make.osf Make.ptx Make.solaris Make.sun Make.v10 Makefile address.c buffer.c cmd.c disc.c error.c errors.h file.c io.c list.c mesg.c mesg.h moveto.c multi.c parse.h plan9.c rasp.c regexp.c sam.c sam.h shell.c string.c sys.c unix.c xec.c ----------------------------------------------------------- path: /netlib/research/sam/samterm/ ----------------------------------------------------------- Make.BSDi Make.aix Make.apollo Make.convex Make.dec Make.dynix Make.hpux Make.irix Make.irix5 Make.mips Make.osf Make.ptx Make.solaris Make.sun Make.v10 Makefile flayer.c flayer.h icons.c io.c main.c menu.c mesg.c plan9.c rasp.c samterm.h scroll.c unix.c ----------------------------------------------------------- for shared memory utilities path: /netlib/research/shm/ ----------------------------------------------------------- svid.c for shared memory interface alg implementation based on the system calls shmget, shmat, shmdt by Eric Grosse ref How shall we connect our software tools?, Visualization'91 Proceedings shmid.c for shared memory interface alg tiny standalone program to print shm identifying string. by Eric Grosse ref How shall we connect our software tools?, Visualization'91 Proceedings isshm.c for shared memory interface by Eric Grosse ref How shall we connect our software tools?, Visualization'91 Proceedings ----------------------------------------------------------- for software for MIMD distributed memory computers path: /netlib/scalapack/ ----------------------------------------------------------- # SCALAPACK directory # ========= # This directory contains a number of different software packages # involved in the ScaLAPACK project. # PLEASE NOTE: As of February 28, 1995, this directory was # updated with the PBLAS version of ScaLAPACK. # Machine-specific versions of the BLACS are no # longer available in this directory, but in its # own directory called blacs. This first public # release of ScaLAPACK is incompatible with previous # test releases. # # The new BLACS version of PUMMA is now available. # # The URL for the BLAS is http://www.netlib.org/blas/index.html. # The URL for the BLACS is http://www.netlib.org/blacs/index.html. # The URL for PVM is http://www.netlib.org/pvm3/index.html. # # Questions/comments should be directed to scalapack@cs.utk.edu. # ############################## # # SOFTWARE AND DOCUMENTATION # # ############################## index.bak pumma.ps scalapack/ for ScaLAPACK, version 1.1, tar file containing source code and installation guide for the ScaLAPACK routines and the PBLAS routines. Assumes the BLAS and the BLACS are available. UPDATED: March 20, 1995 with patch_1.tar. size 1731461 bytes patch_1/ for PATCH 1 for ScaLAPACK (version 1.0 --> version 1.1). You must cd to your SCALAPACK directory and untar the file. size 182388 bytes errata.scalapack for ERRATA file for ScaLAPACK. Details all "bug fixes" included in the patches, as well as a list of "TO BE FIXED" bugs for the upcoming release. size 9657 bytes scalapack_install.ps for Installation Guide for ScaLAPACK and its Test Suite. size 271598 bytes lawn100.ps for LAPACK Working Note 100: A Proposal for a Set of Parallel Basic Linear Algebra Subprograms (PBLAS) size 424966 bytes pblasqref.ps for PBLAS Quick Reference Guide size 93391 bytes # ######### # # PUMMA # # ######### pumma_refmanual.ps for PUMMA Reference Manual size 179780 bytes trans.ps for Parallel Matrix Transpose Algorithms on Distributed Memory Concurrent Computers This paper outlines another facet of PUMMA. size 537057 bytes pumma_blacs/ for (FOR ANON FTP, email via NETLIB, or XNETLIB USERS) This is the BLACS version of PUMMA, version 2.1. (this file has been tar; compress; uuencode) Updated: July, 1995 size 318504 bytes lang Fortran gams d1b6 pumma_picl/ for (FOR ANON FTP, email via NETLIB, or XNETLIB USERS) This is the PICL version of PUMMA, version 2.1. (this file has been tar; compress; uuencode) Updated: March 24, 1995 size 318767 bytes lang Fortran gams d1b6 # ######### # # CAPSS # # ######### capss-beta/ for (FOR ANON FTP and XNETLIB USERS ONLY) NOT AVAILABLE BY EMAIL CAPSS is a fully parallel package to solve a sparse linear system of the form Ax=b on a message passing multiprocessor using matrix factorization. This is a first Release which is meant for the Intel iPSC/860 machines; the code has been compiled and tested on an Intel iPSC/860 with 1-128 processors. The code is written in C with message passing extensions as provided provided by PICL, a Portable Instrumented Communications Library. It also uses a few native iPSC/860 functions. (this file has been tar; compress) by Padma Raghavan size 1067725 bytes lang C # ########## # # ARPACK # # ########## readme.arpack for A README file for the ARPACK distribution ARPACK is a Fortran 77 software package for solving large scale eigenvalue problems. The package is designed to compute a few eigenvalues and corresponding eigenvectors of a large (sparse) matrix. size 20644 bytes instructions.arpack for Installation instructions for ARPACK. size 3458 bytes arpack_ug.tex for User's Guide for ARPACK on the Intel Delta Touchstone size 10366 bytes dist/ for ARPACK is an implementation of Arnoldi's algorithm for computing the eigenvalues and eigenvectors of a large sparse nonsymmetric matrix by Dan Sorensen and Rich Lehoucq size 1958551 bytes lang Fortran ----------------------------------------------------------- for (FOR ANON FTP and XNETLIB USERS ONLY) NOT path: /netlib/scalapack/capss-beta/ ----------------------------------------------------------- Doc/ Index Readme Src/ Test/ ----------------------------------------------------------- path: /netlib/scalapack/capss-beta/Doc/ ----------------------------------------------------------- Readme capss.bib capss.ps capss.tex siam12.sty ----------------------------------------------------------- path: /netlib/scalapack/capss-beta/Src/ ----------------------------------------------------------- Makefile capss.c cnd_stats.h d_exchange.c d_n_fact.h d_n_fact_spd.c d_s_fact.c d_s_fact.h factor.c l_n_fact.c l_n_fact.h l_s_fact.c l_s_fact.h map.h map_grid.c map_mesh.c map_tool.c map_utilities.c n_defs.h n_fact.c n_fact.h n_merges.c n_merges.h n_merges_spd.c n_routines.h n_utilities.c o_counts.c o_counts.h o_d.h o_d_ext.h o_d_extra.c o_d_gather.c o_d_l_glue.c o_d_l_glue.h o_d_phase.c o_d_seps.c o_d_seps.h o_defs.h o_ext.h o_interface.c o_items.c o_l.h o_l_ext.h o_l_phase.c o_l_phase.h o_l_seps.c o_lists.c o_lists.h o_merges.c o_s.h o_s_ext.h o_s_glue.c o_show.c o_utilities.c order.c order.h q_sort.c redistribute.c redistribute.h s_defs.h s_fact.c s_fact.h s_util_spd.c saxpy_mc.s set_fsr.c set_fsr.s sfill.s solve.c sscal.s ----------------------------------------------------------- path: /netlib/scalapack/capss-beta/Test/ ----------------------------------------------------------- Readme grid hammond shuttle sphere3 sphere4 sphere6 vaughan venkat2 venkat2dual ----------------------------------------------------------- for ARPACK is an implementation of Arnoldi's path: /netlib/scalapack/dist/ ----------------------------------------------------------- BLAS/ DOCUMENTS/ EXAMPLES/ LAPACK/ README SRC/ TEST/ UTIL/ makefile skeleton.mak ----------------------------------------------------------- path: /netlib/scalapack/dist/BLAS/ ----------------------------------------------------------- dasum.f daxpy.f dcopy.f ddot.f dgemm.f dgemv.f dger.f dnrm2.f drot.f drotg.f dscal.f dswap.f dsymv.f dsyr2.f dtrsm.f idamax.f isamax.f makefile sasum.f saxpy.f scopy.f sdot.f sgemm.f sgemv.f sger.f snrm2.f srot.f srotg.f sscal.f sswap.f ssymv.f ssyr2.f strsm.f ----------------------------------------------------------- path: /netlib/scalapack/dist/DOCUMENTS/ ----------------------------------------------------------- README debug.doc ex-nonsym.doc ex-sym.doc stat.doc ----------------------------------------------------------- path: /netlib/scalapack/dist/EXAMPLES/ ----------------------------------------------------------- README makefile sgttrf.f sgttrs.f shinv.f simple.f ----------------------------------------------------------- path: /netlib/scalapack/dist/LAPACK/ ----------------------------------------------------------- dgetf2.f dgetrf.f dgetrs.f dlabad.f dlacpy.f dladiv.f dlae2.f dlaev2.f dlagtm.f dlahqr.f dlaln2.f dlamch.f dlanhs.f dlanst.f dlanv2.f dlaptm.f dlapy2.f dlaran.f dlarf.f dlarfg.f dlarnd.f dlarnv.f dlartg.f dlaruv.f dlascl.f dlasr.f dlassq.f dlaswp.f dlazro.f dsteqr.f dtrevc.f ilaenv.f lsame.f lsamen.f makefile sgetf2.f sgetrf.f sgetrs.f slabad.f slacpy.f sladiv.f slae2.f slaev2.f slagtm.f slahqr.f slaln2.f slamch.f slanhs.f slanst.f slanv2.f slaptm.f slapy2.f slaran.f slarf.f slarfg.f slarnd.f slarnv.f slartg.f slaruv.f slascl.f slasr.f slassq.f slaswp.f slazro.f ssteqr.f strevc.f xerbla.f xlaenv.f ----------------------------------------------------------- path: /netlib/scalapack/dist/SRC/ ----------------------------------------------------------- README debug.h dgetv0.f dlaqrb.f dnaitr.f dnapps.f dnaup2.f dnaupd.f dnconv.f dneigh.f dnevec.f dngets.f dsaitr.f dsapps.f dsaup2.f dsaupd.f dsconv.f dseigt.f dsesrt.f dseupd.f dsgets.f dsortc.f dsortr.f dstatn.f dstats.f dstqlb.f dstqrb.f makefile namedef.h sgetv0.f slaqrb.f snaitr.f snapps.f snaup2.f snaupd.f snconv.f sneigh.f snevec.f sngets.f ssaitr.f ssapps.f ssaup2.f ssaupd.f ssconv.f sseigt.f ssesrt.f sseupd.f ssgets.f ssortc.f ssortr.f sstatn.f sstats.f sstqlb.f sstqrb.f stat.h version.h ----------------------------------------------------------- path: /netlib/scalapack/dist/TEST/ ----------------------------------------------------------- README craymv.f debug.h dense.h dense_d_sym dense_nonsym.f dense_s_sym dsmgen.f dsymt.f input_nonsym input_sym makefile matgen.f matgen_need.f read_nonsym.h read_sym.h snmgen.f sparse.h sparse1.f sparse2.f sparseutil.f ssmgen.f ssymt.f stat.h testbcs.f testlin.f ----------------------------------------------------------- path: /netlib/scalapack/dist/UTIL/ ----------------------------------------------------------- dmout.f dvout.f icnteq.f icopy.f iset.f iswap.f ivout.f makefile second.f smout.f svout.f ----------------------------------------------------------- for PATCH 1 for ScaLAPACK (version 1.0 --> version path: /netlib/scalapack/patch_1/ ----------------------------------------------------------- PBLAS/ README.patch1 SLmake.LINUX SRC/ TESTING/ make.patch ----------------------------------------------------------- path: /netlib/scalapack/patch_1/PBLAS/ ----------------------------------------------------------- SRC/ ----------------------------------------------------------- path: /netlib/scalapack/patch_1/PBLAS/SRC/ ----------------------------------------------------------- Makefile PBBLAS/ pberror_.c pblas.h pblas_.c pcaxpy_.c pccopy_.c pcdotc_.c pcdotu_.c pcscal_.c pcsscal_.c pcswap_.c pctranc_.c pctranu_.c pctrsm_.c pctrsv_.c pdaxpy_.c pdcopy_.c pddot_.c pdscal_.c pdswap_.c pdtran_.c pdtrsm_.c pdtrsv_.c psaxpy_.c pscopy_.c psdot_.c psscal_.c psswap_.c pstran_.c pstrsm_.c pstrsv_.c pzaxpy_.c pzcopy_.c pzdotc_.c pzdotu_.c pzdscal_.c pzscal_.c pzswap_.c pztranc_.c pztranu_.c pztrsm_.c pztrsv_.c ----------------------------------------------------------- path: /netlib/scalapack/patch_1/PBLAS/SRC/PBBLAS/ ----------------------------------------------------------- pbctrsv.f pbdtrsv.f pbstrsv.f pbztrsv.f ----------------------------------------------------------- path: /netlib/scalapack/patch_1/SRC/ ----------------------------------------------------------- pcgebd2.f pcgebrd.f pclange.f pclanhe.f pclanhs.f pclansy.f pclantr.f pclassq.f pdgebd2.f pdgebrd.f pdlange.f pdlanhs.f pdlansy.f pdlantr.f pdlassq.f psgebd2.f psgebrd.f pslange.f pslanhs.f pslansy.f pslantr.f pslassq.f pzgebd2.f pzgebrd.f pzlange.f pzlanhe.f pzlanhs.f pzlansy.f pzlantr.f pzlassq.f ----------------------------------------------------------- path: /netlib/scalapack/patch_1/TESTING/ ----------------------------------------------------------- EIG/ LIN/ ----------------------------------------------------------- path: /netlib/scalapack/patch_1/TESTING/EIG/ ----------------------------------------------------------- pcbrddriver.f pcgebdrv.f pchrddriver.f pctrddriver.f pdbrddriver.f pdgebdrv.f pdhrddriver.f pdtrddriver.f psbrddriver.f psgebdrv.f pshrddriver.f pstrddriver.f pzbrddriver.f pzgebdrv.f pzhrddriver.f pztrddriver.f ----------------------------------------------------------- path: /netlib/scalapack/patch_1/TESTING/LIN/ ----------------------------------------------------------- pcinvdriver.f pclltdriver.f pcludriver.f pcqrdriver.f pdinvdriver.f psinvdriver.f pzinvdriver.f ----------------------------------------------------------- for (FOR ANON FTP, email via NETLIB, or XNETLIB path: /netlib/scalapack/pumma_blacs/ ----------------------------------------------------------- README SRC/ TESTING/ ----------------------------------------------------------- path: /netlib/scalapack/pumma_blacs/SRC/ ----------------------------------------------------------- Makefile pcmma.f pcmnna.f pcmnnb.f pcmntc.f pcmtnc.f pcpuminc.f pctrans.f pdmma.f pdmnna.f pdmnnb.f pdmntc.f pdmtnc.f pdpuminc.f pdtrans.f psmma.f psmnna.f psmnnb.f psmntc.f psmtnc.f pspuminc.f pstrans.f puminc.f pxerbla.f pzmma.f pzmnna.f pzmnnb.f pzmntc.f pzmtnc.f pzpuminc.f pztrans.f toolsinc.f ----------------------------------------------------------- path: /netlib/scalapack/pumma_blacs/TESTING/ ----------------------------------------------------------- Makefile PUMMA.CPLX PUMMA.REAL PUMMA.dat dlamch.f icopy.f pcmatgen.f pcmmadriver.f pcmmainfo.f pcpumchk.f pdlamch.f pdmatgen.f pdmmadriver.f pdmmainfo.f pdpumchk.f pmatgeninc.f pslamch.f psmatgen.f psmmadriver.f psmmainfo.f pspumchk.f pzmatgen.f pzmmadriver.f pzmmainfo.f pzpumchk.f slamch.f sltimer.f ----------------------------------------------------------- for (FOR ANON FTP, email via NETLIB, or XNETLIB path: /netlib/scalapack/pumma_picl/ ----------------------------------------------------------- README SRC/ TESTING/ ----------------------------------------------------------- path: /netlib/scalapack/pumma_picl/SRC/ ----------------------------------------------------------- Makefile pcmma.f pcmnna.f pcmnnb.f pcmntc.f pcmtnc.f pcpuminc.f pctrans.f pdmma.f pdmnna.f pdmnnb.f pdmntc.f pdmtnc.f pdpuminc.f pdtrans.f psmma.f psmnna.f psmnnb.f psmntc.f psmtnc.f pspuminc.f pstrans.f puminc.f pxerbla.f pzmma.f pzmnna.f pzmnnb.f pzmntc.f pzmtnc.f pzpuminc.f pztrans.f toolsinc.f ----------------------------------------------------------- path: /netlib/scalapack/pumma_picl/TESTING/ ----------------------------------------------------------- Makefile PUMMA.CPLX PUMMA.REAL PUMMA.dat dlamch.f icopy.f pcmatgen.f pcmmadriver.f pcmmainfo.f pcpumchk.f pdmatgen.f pdmmadriver.f pdmmainfo.f pdpumchk.f pmatgeninc.f psmatgen.f psmmadriver.f psmmainfo.f pspumchk.f pzmatgen.f pzmmadriver.f pzmmainfo.f pzpumchk.f slamch.f ----------------------------------------------------------- for ScaLAPACK, version 1.1, tar file containing path: /netlib/scalapack/scalapack/ ----------------------------------------------------------- DOC/ Makefile PBLAS/ README REDIST/ SLmake.ALPHA SLmake.CM5 SLmake.HPPA SLmake.I860 SLmake.LINUX SLmake.NEXT SLmake.PGON SLmake.PMAX SLmake.RS6K SLmake.SGI SLmake.SP1 SLmake.SP2 SLmake.SUN4 SLmake.SUN4SOL2 SLmake.SUNMP SLmake.T3D SLmake.inc SRC/ TESTING/ TOOLS/ ----------------------------------------------------------- path: /netlib/scalapack/scalapack/DOC/ ----------------------------------------------------------- scalapack_install.ps ----------------------------------------------------------- path: /netlib/scalapack/scalapack/PBLAS/ ----------------------------------------------------------- SRC/ TESTING/ ----------------------------------------------------------- path: /netlib/scalapack/scalapack/PBLAS/SRC/ ----------------------------------------------------------- Makefile PBBLAS/ pberror_.c pblas.h pblas_.c pcamax_.c pcaxpy_.c pccopy_.c pcdotc_.c pcdotu_.c pcgemm_.c pcgemv_.c pcgerc_.c pcgeru_.c pchemm_.c pchemv_.c pcher2_.c pcher2k_.c pcher_.c pcherk_.c pcscal_.c pcsscal_.c pcswap_.c pcsymm_.c pcsyr2k_.c pcsyrk_.c pctranc_.c pctranu_.c pctrmm_.c pctrmv_.c pctrsm_.c pctrsv_.c pdamax_.c pdasum_.c pdaxpy_.c pdcopy_.c pddot_.c pdgemm_.c pdgemv_.c pdger_.c pdnrm2_.c pdscal_.c pdswap_.c pdsymm_.c pdsymv_.c pdsyr2_.c pdsyr2k_.c pdsyr_.c pdsyrk_.c pdtran_.c pdtrmm_.c pdtrmv_.c pdtrsm_.c pdtrsv_.c pdzasum_.c pdznrm2_.c psamax_.c psasum_.c psaxpy_.c pscasum_.c pscnrm2_.c pscopy_.c psdot_.c psgemm_.c psgemv_.c psger_.c psnrm2_.c psscal_.c psswap_.c pssymm_.c pssymv_.c pssyr2_.c pssyr2k_.c pssyr_.c pssyrk_.c pstran_.c pstrmm_.c pstrmv_.c pstrsm_.c pstrsv_.c pzamax_.c pzaxpy_.c pzcopy_.c pzdotc_.c pzdotu_.c pzdscal_.c pzgemm_.c pzgemv_.c pzgerc_.c pzgeru_.c pzhemm_.c pzhemv_.c pzher2_.c pzher2k_.c pzher_.c pzherk_.c pzscal_.c pzswap_.c pzsymm_.c pzsyr2k_.c pzsyrk_.c pztranc_.c pztranu_.c pztrmm_.c pztrmv_.c pztrsm_.c pztrsv_.c ----------------------------------------------------------- path: /netlib/scalapack/scalapack/PBLAS/SRC/PBBLAS/ ----------------------------------------------------------- Makefile pbcdzero.f pbcdzro1.f pbcgemm.f pbcgemv.f pbcgerc.f pbcgeru.f pbchemm.f pbchemv.f pbcher.f pbcher2.f pbcher2k.f pbcherk.f pbclacp1.f pbclacpz.f pbcmatadd.f pbcsymm.f pbcsyr2k.f pbcsyrk.f pbctrad1.f pbctradd.f pbctran.f pbctrget.f pbctrmm.f pbctrmv.f pbctrnv.f pbctrsm.f pbctrsrt.f pbctrst1.f pbctrsv.f pbcvecadd.f pbddzero.f pbddzro1.f pbdgemm.f pbdgemv.f pbdger.f pbdlacp1.f pbdlacpz.f pbdmatadd.f pbdsymm.f pbdsymv.f pbdsyr.f pbdsyr2.f pbdsyr2k.f pbdsyrk.f pbdtrad1.f pbdtradd.f pbdtran.f pbdtrget.f pbdtrmm.f pbdtrmv.f pbdtrnv.f pbdtrsm.f pbdtrsrt.f pbdtrst1.f pbdtrsv.f pbdvecadd.f pbsdzero.f pbsdzro1.f pbsgemm.f pbsgemv.f pbsger.f pbslacp1.f pbslacpz.f pbsmatadd.f pbssymm.f pbssymv.f pbssyr.f pbssyr2.f pbssyr2k.f pbssyrk.f pbstrad1.f pbstradd.f pbstran.f pbstrget.f pbstrmm.f pbstrmv.f pbstrnv.f pbstrsm.f pbstrsrt.f pbstrst1.f pbstrsv.f pbsvecadd.f pbzdzero.f pbzdzro1.f pbzgemm.f pbzgemv.f pbzgerc.f pbzgeru.f pbzhemm.f pbzhemv.f pbzher.f pbzher2.f pbzher2k.f pbzherk.f pbzlacp1.f pbzlacpz.f pbzmatadd.f pbzsymm.f pbzsyr2k.f pbzsyrk.f pbztrad1.f pbztradd.f pbztran.f pbztrget.f pbztrmm.f pbztrmv.f pbztrnv.f pbztrsm.f pbztrsrt.f pbztrst1.f pbztrsv.f pbzvecadd.f pxerbla.f ----------------------------------------------------------- path: /netlib/scalapack/scalapack/PBLAS/TESTING/ ----------------------------------------------------------- Makefile PBBLAS/ PBC2BLAS.dat PBC3BLAS.dat PBD2BLAS.dat PBD3BLAS.dat PBS2BLAS.dat PBS3BLAS.dat PBZ2BLAS.dat PBZ3BLAS.dat delta.exe gamma.exe pgon.exe sp1.exe ----------------------------------------------------------- path: /netlib/scalapack/scalapack/PBLAS/TESTING/PBBLAS/ ----------------------------------------------------------- Makefile PBC2BLAS.dat PBC3BLAS.dat PBD2BLAS.dat PBD3BLAS.dat PBS2BLAS.dat PBS3BLAS.dat PBZ2BLAS.dat PBZ3BLAS.dat pbc2check.f pbc2chkinfo.f pbc3check.f pbc3chkinfo.f pbchkinc.f pbd2check.f pbd2chkinfo.f pbd3check.f pbd3chkinfo.f pbs2check.f pbs2chkinfo.f pbs3check.f pbs3chkinfo.f pbz2check.f pbz2chkinfo.f pbz3check.f pbz3chkinfo.f pcmatchk.f pcmatgen.f pcmt2chk.f pcvecchk.f pdmatchk.f pdmatgen.f pdmt2chk.f pdvecchk.f pmatgeninc.f psmatchk.f psmatgen.f psmt2chk.f psvecchk.f pzmatchk.f pzmatgen.f pzmt2chk.f pzvecchk.f ----------------------------------------------------------- path: /netlib/scalapack/scalapack/REDIST/ ----------------------------------------------------------- SRC/ TESTING/ ----------------------------------------------------------- path: /netlib/scalapack/scalapack/REDIST/SRC/ ----------------------------------------------------------- Makefile pcgemr.c pcgemr2.c pctrmr.c pctrmr2.c pdgemr.c pdgemr2.c pdtrmr.c pdtrmr2.c pgemraux.c pigemr.c pigemr2.c pitrmr.c pitrmr2.c psgemr.c psgemr2.c pstrmr.c pstrmr2.c pzgemr.c pzgemr2.c pztrmr.c pztrmr2.c ----------------------------------------------------------- path: /netlib/scalapack/scalapack/REDIST/TESTING/ ----------------------------------------------------------- GEMR2D.dat Makefile TRMR2D.dat pcgemrdrv.c pctrmrdrv.c pdgemrdrv.c pdtrmrdrv.c pigemrdrv.c pitrmrdrv.c psgemrdrv.c pstrmrdrv.c pzgemrdrv.c pztrmrdrv.c ----------------------------------------------------------- path: /netlib/scalapack/scalapack/SRC/ ----------------------------------------------------------- Makefile dlasrt2.f dstein2.f pcgebd2.f pcgebrd.f pcgeequ.f pcgehd2.f pcgehrd.f pcgelq2.f pcgelqf.f pcgeql2.f pcgeqlf.f pcgeqpf.f pcgeqr2.f pcgeqrf.f pcgerq2.f pcgerqf.f pcgesv.f pcgetf2.f pcgetrf.f pcgetri.f pcgetrs.f pchetd2.f pchetrd.f pclabrd.f pclacgv.f pclacp2.f pclacpy.f pclahrd.f pclange.f pclanhe.f pclanhs.f pclansy.f pclantr.f pclapiv.f pclapv2.f pclaqge.f pclaqsy.f pclarf.f pclarfb.f pclarfc.f pclarfg.f pclarft.f pclascl.f pclase2.f pclaset.f pclassq.f pclaswp.f pclatra.f pclatrd.f pclauu2.f pclauum.f pcpoequ.f pcposv.f pcpotf2.f pcpotrf.f pcpotri.f pcpotrs.f pctrti2.f pctrtri.f pctrtrs.f pcung2l.f pcung2r.f pcungl2.f pcunglq.f pcungql.f pcungqr.f pcungr2.f pcungrq.f pcunm2l.f pcunm2r.f pcunmbr.f pcunmhr.f pcunml2.f pcunmlq.f pcunmql.f pcunmqr.f pcunmr2.f pcunmrq.f pcunmtr.f pdgebd2.f pdgebrd.f pdgeequ.f pdgehd2.f pdgehrd.f pdgelq2.f pdgelqf.f pdgeql2.f pdgeqlf.f pdgeqpf.f pdgeqr2.f pdgeqrf.f pdgerq2.f pdgerqf.f pdgesv.f pdgetf2.f pdgetrf.f pdgetri.f pdgetrs.f pdlabad.f pdlabrd.f pdlacp2.f pdlacpy.f pdlaevswp.f pdlahrd.f pdlaiect.c pdlamch.f pdlange.f pdlanhs.f pdlansy.f pdlantr.f pdlapiv.f pdlapv2.f pdlaqge.f pdlaqsy.f pdlared1d.f pdlarf.f pdlarfb.f pdlarfg.f pdlarft.f pdlascl.f pdlase2.f pdlaset.f pdlassq.f pdlaswp.f pdlatra.f pdlatrd.f pdlauu2.f pdlauum.f pdorg2l.f pdorg2r.f pdorgl2.f pdorglq.f pdorgql.f pdorgqr.f pdorgr2.f pdorgrq.f pdorm2l.f pdorm2r.f pdormbr.f pdormhr.f pdorml2.f pdormlq.f pdormql.f pdormqr.f pdormr2.f pdormrq.f pdormtr.f pdpoequ.f pdposv.f pdpotf2.f pdpotrf.f pdpotri.f pdpotrs.f pdstebz.f pdstein.f pdsyevx.f pdsyevx.h pdsytd2.f pdsytrd.f pdtrti2.f pdtrtri.f pdtrtrs.f psgebd2.f psgebrd.f psgeequ.f psgehd2.f psgehrd.f psgelq2.f psgelqf.f psgeql2.f psgeqlf.f psgeqpf.f psgeqr2.f psgeqrf.f psgerq2.f psgerqf.f psgesv.f psgetf2.f psgetrf.f psgetri.f psgetrs.f pslabad.f pslabrd.f pslacp2.f pslacpy.f pslahrd.f pslamch.f pslange.f pslanhs.f pslansy.f pslantr.f pslapiv.f pslapv2.f pslaqge.f pslaqsy.f pslarf.f pslarfb.f pslarfg.f pslarft.f pslascl.f pslase2.f pslaset.f pslassq.f pslaswp.f pslatra.f pslatrd.f pslauu2.f pslauum.f psorg2l.f psorg2r.f psorgl2.f psorglq.f psorgql.f psorgqr.f psorgr2.f psorgrq.f psorm2l.f psorm2r.f psormbr.f psormhr.f psorml2.f psormlq.f psormql.f psormqr.f psormr2.f psormrq.f psormtr.f pspoequ.f psposv.f pspotf2.f pspotrf.f pspotri.f pspotrs.f pssytd2.f pssytrd.f pstrti2.f pstrtri.f pstrtrs.f pzgebd2.f pzgebrd.f pzgeequ.f pzgehd2.f pzgehrd.f pzgelq2.f pzgelqf.f pzgeql2.f pzgeqlf.f pzgeqpf.f pzgeqr2.f pzgeqrf.f pzgerq2.f pzgerqf.f pzgesv.f pzgetf2.f pzgetrf.f pzgetri.f pzgetrs.f pzhetd2.f pzhetrd.f pzlabrd.f pzlacgv.f pzlacp2.f pzlacpy.f pzlahrd.f pzlange.f pzlanhe.f pzlanhs.f pzlansy.f pzlantr.f pzlapiv.f pzlapv2.f pzlaqge.f pzlaqsy.f pzlarf.f pzlarfb.f pzlarfc.f pzlarfg.f pzlarft.f pzlascl.f pzlase2.f pzlaset.f pzlassq.f pzlaswp.f pzlatra.f pzlatrd.f pzlauu2.f pzlauum.f pzpoequ.f pzposv.f pzpotf2.f pzpotrf.f pzpotri.f pzpotrs.f pztrti2.f pztrtri.f pztrtrs.f pzung2l.f pzung2r.f pzungl2.f pzunglq.f pzungql.f pzungqr.f pzungr2.f pzungrq.f pzunm2l.f pzunm2r.f pzunmbr.f pzunmhr.f pzunml2.f pzunmlq.f pzunmql.f pzunmqr.f pzunmr2.f pzunmrq.f pzunmtr.f ----------------------------------------------------------- path: /netlib/scalapack/scalapack/TESTING/ ----------------------------------------------------------- BRD.dat EIG/ HRD.dat INV.dat LIN/ LLT.dat LU.dat QR.dat SEP.dat TRD.dat delta.exe gamma.exe pgon.exe sp1.exe ----------------------------------------------------------- path: /netlib/scalapack/scalapack/TESTING/EIG/ ----------------------------------------------------------- Makefile pcbrddriver.f pcbrdinfo.f pcgebdrv.f pcgehdrv.f pchetdrv.f pchrddriver.f pchrdinfo.f pclafchk.f pcmatgen.f pctrddriver.f pctrdinfo.f pdbrddriver.f pdbrdinfo.f pdgebdrv.f pdgehdrv.f pdhrddriver.f pdhrdinfo.f pdlafchk.f pdlagsy.f pdlatms.f pdmatgen.f pdsepchk.f pdsepdriver.f pdsepinfo.f pdsepqtq.f pdsepreq.f pdseptst.f pdseptst2.f pdsytdrv.f pdtrddriver.f pdtrdinfo.f pmatgeninc.f psbrddriver.f psbrdinfo.f psgebdrv.f psgehdrv.f pshrddriver.f pshrdinfo.f pslafchk.f psmatgen.f pssytdrv.f pstrddriver.f pstrdinfo.f pzbrddriver.f pzbrdinfo.f pzgebdrv.f pzgehdrv.f pzhetdrv.f pzhrddriver.f pzhrdinfo.f pzlafchk.f pzmatgen.f pztrddriver.f pztrdinfo.f sample_pdsyevx_call.f ----------------------------------------------------------- path: /netlib/scalapack/scalapack/TESTING/LIN/ ----------------------------------------------------------- Makefile pcgelqrv.f pcgeqlrv.f pcgeqrrv.f pcgerqrv.f pcgetrrv.f pcinvchk.f pcinvdriver.f pcinvinfo.f pclafchk.f pclaschk.f pclltdriver.f pclltinfo.f pcludriver.f pcluinfo.f pcmatgen.f pcpotrrv.f pcqrdriver.f pcqrinfo.f pdgelqrv.f pdgeqlrv.f pdgeqrrv.f pdgerqrv.f pdgetrrv.f pdinvchk.f pdinvdriver.f pdinvinfo.f pdlafchk.f pdlaschk.f pdlltdriver.f pdlltinfo.f pdludriver.f pdluinfo.f pdmatgen.f pdpotrrv.f pdqrdriver.f pdqrinfo.f pmatgeninc.f psgelqrv.f psgeqlrv.f psgeqrrv.f psgerqrv.f psgetrrv.f psinvchk.f psinvdriver.f psinvinfo.f pslafchk.f pslaschk.f pslltdriver.f pslltinfo.f psludriver.f psluinfo.f psmatgen.f pspotrrv.f psqrdriver.f psqrinfo.f pzgelqrv.f pzgeqlrv.f pzgeqrrv.f pzgerqrv.f pzgetrrv.f pzinvchk.f pzinvdriver.f pzinvinfo.f pzlafchk.f pzlaschk.f pzlltdriver.f pzlltinfo.f pzludriver.f pzluinfo.f pzmatgen.f pzpotrrv.f pzqrdriver.f pzqrinfo.f ----------------------------------------------------------- path: /netlib/scalapack/scalapack/TOOLS/ ----------------------------------------------------------- LAPACK/ Makefile ccdotc.f ccdotu.f chk1mat.f cmatadd.f dddot.f descinit.f descset.f dmatadd.f dsasum.f dscasum.f dscnrm2.f dsnrm2.f iceil.f ilacpy.f ilcm.f indxg2l.f indxg2p.f indxl2g.f infog1l.f infog2l.f npreroc.f numroc.f pcchekpad.f pccol2row.f pcelget.f pcelset.f pcelset2.f pcfillpad.f pchkxmat.f pclaprnt.f pcmatadd.f pcrow2col.f pctreecomb.f pdchekpad.f pdcol2row.f pdelget.f pdelset.f pdelset2.f pdfillpad.f pdlaprnt.f pdmatadd.f pdrow2col.f pdtreecomb.f pichekpad.f picol2row.f pielget.f pielset.f pielset2.f pifillpad.f pilaprnt.f pirow2col.f pitreecomb.f pschekpad.f pscol2row.f pselget.f pselset.f pselset2.f psfillpad.f pslaprnt.f psmatadd.f psrow2col.f pstreecomb.f pzchekpad.f pzcol2row.f pzelget.f pzelset.f pzelset2.f pzfillpad.f pzlaprnt.f pzmatadd.f pzrow2col.f pztreecomb.f sltimer.f smatadd.f ssdot.f zmatadd.f zzdotc.f zzdotu.f ----------------------------------------------------------- path: /netlib/scalapack/scalapack/TOOLS/LAPACK/ ----------------------------------------------------------- Makefile clacgv.f clacpy.f cladiv.f clagge.f claghe.f clagsy.f clarf.f clarfb.f clarfg.f clarft.f clarnd.f clarot.f clascl.f claset.f classq.f clatms.f cstein.f cunm2l.f cunm2r.f cunmql.f cunmqr.f cunmtr.f dlabad.f dlacpy.f dladiv.f dlagge.f dlagsy.f dlagtf.f dlagts.f dlamch.f dlapy2.f dlapy3.f dlaran.f dlarf.f dlarfb.f dlarfg.f dlarft.f dlarnd.f dlarnv.f dlarot.f dlartg.f dlaruv.f dlascl.f dlaset.f dlasrt.f dlassq.f dlatm1.f dlatms.f dorm2l.f dorm2r.f dormql.f dormqr.f dormtr.f dstein.f dzsum1.f icmax1.f icopy.f ilaenv.f izmax1.f lsame.f lsamen.f scsum1.f slabad.f slacpy.f sladiv.f slagge.f slagsy.f slagtf.f slagts.f slamch.f slapy2.f slapy3.f slaran.f slarf.f slarfb.f slarfg.f slarft.f slarnd.f slarnv.f slarot.f slartg.f slaruv.f slascl.f slaset.f slasrt.f slassq.f slatm1.f slatms.f sorm2l.f sorm2r.f sormql.f sormqr.f sormtr.f sstein.f xerbla.f zlacgv.f zlacpy.f zladiv.f zlagge.f zlaghe.f zlagsy.f zlarf.f zlarfb.f zlarfg.f zlarft.f zlarnd.f zlarot.f zlascl.f zlaset.f zlassq.f zlatms.f zstein.f zunm2l.f zunm2r.f zunmql.f zunmqr.f zunmtr.f ----------------------------------------------------------- for the Schedule package, to aid transportable path: /netlib/sched/ ----------------------------------------------------------- alliant2/ build/ diaz/ flex.notes map/ new.alliant/ newalliant/ newtrace/ readme for overview of sched alliant/ for Alliant verion of the Schedule program size 140479 bytes balance/ for Sequent Balance verion of the Schedule program size 183136 bytes sched.doc sequent/ spark.note symmetry for Sequent Symmetry verion of the Schedule program size 140140 bytes encore/ for Encore verion of the Schedule program size 159373 bytes usersguide vax/ for Vax verion of the Schedule program size 139817 bytes sun/ for Sun verion of the Schedule program size 139817 bytes sun4/ for Sun-4 verion of the Schedule program size 96203 bytes cray2/ for Cray-2 verion of the Schedule program size 163628 bytes flex for Flex version of the Schedule program size 34347 bytes ncube/ for Ncube version of the Schedule program size 75878 bytes ibm for IBM version of the Schedule program size 175747 bytes trace/ for trace the flow of execution for an application using the Schedule package. size 236501 bytes uguide for Users' Guide for the Schedule package and Tracing facility. size 66765 bytes uguide-post for Users' Guide for the Schedule package and Tracing facility lang PostScript paper for Tech Memo describing the Schedule package size 70181 bytes # pic file | tbl | eqn | troff -ms paper-post for Tech Memo describing the Schedule package lang PostScript refer for refer file used with paper size 19878 bytes encore-notes size 1219 bytes sequent-notes size 1434 bytes user-changes size 2468 bytes shmap/ for SHMAP programs as a shar file. size 2384011 bytes map-post for postscript version of the MAP paper. size 90289 bytes ----------------------------------------------------------- for Alliant verion of the Schedule program path: /netlib/sched/alliant/ ----------------------------------------------------------- README blkjac.f d_and_c.f data data.blkjac data.ts_dynamic example.f ftsubs.f ftsubs.graph.f indx0.h indxj.h lockoff.s lockon.s maindp.f make1 makefile maxparms.h newevdp0.f nops.s old.test putq.c second.f stateig.f statses.f stseswait.f stuffspawn.f testrun ts_dynamic.f ----------------------------------------------------------- path: /netlib/sched/alliant2/ ----------------------------------------------------------- README d_and_c.f data ftsubs.f ftsubs.graph.f lockoff.s lockon.s maindp.f make1 makefile newevdp0.f nops.s oldtest putq.c second.f stateig.f statses.f stseswait.f stuffspawn.f testrun ----------------------------------------------------------- for Sequent Balance verion of the Schedule program path: /netlib/sched/balance/ ----------------------------------------------------------- README blkjac.f cputm.c d_and_c.f data data.blkjac data.ts_dynamic example.f ftsubs.f ftsubs.graph.f indx0.h indxj.h maindp.f make1 makefile maxparms.h newevdp0.f oldtest putq.c second.f stateig.f statses.f stseswait.f stuffspawn.f testrun ts_dynamic.f ----------------------------------------------------------- path: /netlib/sched/build/ ----------------------------------------------------------- BUILD/ ----------------------------------------------------------- path: /netlib/sched/build/BUILD/ ----------------------------------------------------------- README SUNVIEW/ X/ daxpy.f dgefa.f graph.100 graph.abcd graph.dcnew graph.example graph.loop graph.tsbig graph.tsnew graph.tsotb src/ stuff1.f stuff2.f sub.list sub.list.danny sub.list2 ----------------------------------------------------------- path: /netlib/sched/build/BUILD/SUNVIEW/ ----------------------------------------------------------- build.icon makefile move.cursor procs.c wd_drawing.c window_init.c ----------------------------------------------------------- path: /netlib/sched/build/BUILD/X/ ----------------------------------------------------------- Command.c Command.h CommandI.h CommandP.h Label.h LabelP.h Simple.h SimpleP.h color_stuff.c load.map makefile procs.c wd_drawing.c window_init.c ----------------------------------------------------------- path: /netlib/sched/build/BUILD/src/ ----------------------------------------------------------- add_to_list.c assign_level.c assign_xy.c at_level.c build.h cgiconstants.h cgidefs.h cgipw.h draw_arc.c draw_graph.c draw_level.c drawing.c dump.c find_parents.c load.c main.c make_node.c makefile mouse.c new_tree.c open_graphfi.c parse_name.c sampop.h save_file.c searches.c ----------------------------------------------------------- for Cray-2 verion of the Schedule program path: /netlib/sched/cray2/ ----------------------------------------------------------- README chekin.f d_and_c.f data dep.f dump.f graph.chekin.f graph.dep.f graph.dump.f graph.gtprb.f graph.ientry.f graph.libopn.f graph.nxtag.f graph.place.f graph.start2.f graph.wait.f gtprb.f ientry.f libopn.f maindp.f make1 makefile newevdp0.f nxtag.f place.f putq.c start2.f stateig.f statses.f stseswait.f stuffspawn.f testrun to.harwell.f trace.graph wait.f ----------------------------------------------------------- path: /netlib/sched/diaz/ ----------------------------------------------------------- README bulk.f makefile mtrprd.f ttl.f ----------------------------------------------------------- for Encore verion of the Schedule program path: /netlib/sched/encore/ ----------------------------------------------------------- README compile d_and_c.f data edcommand encore_preproc.c ftsubs.f ftsubsgraph.f maindp.f make1 makefile maketrace mclock.c newevdp0.f oldtest putq.c second.f secondproc.c stateig.f statses.f stseswait.f stuffspawn.f testrun ----------------------------------------------------------- path: /netlib/sched/map/ ----------------------------------------------------------- MAPA/ MAPI/ README makefile ----------------------------------------------------------- path: /netlib/sched/map/MAPA/ ----------------------------------------------------------- README cache_stuff.c flash_access.c load.c makefile map_matrix.c mapa.c mapa.h mapa.icon memory.lu1 memory.lu2 memory.lu3 memory.luall memory.sgetrf memory.sgetrf2 memory.spotrf memory.spotrfl open_memoryfile.c print_stats.c process_file.c procs.c program_init.c read_args.c wd_drawing.c window_init.c ----------------------------------------------------------- path: /netlib/sched/map/MAPI/ ----------------------------------------------------------- README add_new_parameters.c assignment.c do_initial_stuff.c get_next_line.c lib/ lu1.f lu2.f lu3.f lumain.f main.c makefile mapi.h process_input.c remove_blanks.c sub_call.c to_upper.c ----------------------------------------------------------- path: /netlib/sched/map/MAPI/lib/ ----------------------------------------------------------- README init.f isamax.f lsame.f makefile matgen.f mclock.c msaxpy.f mscopy.f msgemm.f msgemv.f msscal.f msswap.f mssymm.f mssymv.f mssyr.f mssyr2k.f mssyrk.f mstrmm.f mstrmv.f mstrsm.f mstrsv.f ops.f r.f saxpy.f scopy.f second.f sgemv.f sgetf2.f sscal.f sswap.f ssymv.f ssyr2k.f strsv.f w.f xerbla.f ----------------------------------------------------------- for Ncube version of the Schedule program path: /netlib/sched/ncube/ ----------------------------------------------------------- README cmake dmain.fn doc.fortran fcs.c fl fln fntoc fp fpn fs fsn ftsubs.f gtprb.f lstar.hqx lstar.hx makefile nxtag.fn pmake pnmake ptoi.hqx ptoi.hx putq.f sched.f slen.f slen.fn sndtag.f sp.fn spawn.fn split.fn spt.f star.hqx star.hx sumsqrt.fn swrapup.f wait.fn work.f wrapup.f ----------------------------------------------------------- path: /netlib/sched/new.alliant/ ----------------------------------------------------------- B1 B2 B3 B4 B5 B6 B7 B8 I1 I2 I3 I4 I5 I6 I7 I8 README blkjac.f ftsubs.f i1 i2 i3 i4 i5 i6 i7 i8 indx0.h indxj.h lockoff.s lockon.s make.archive makefile maxparms.h nops.s pgm.big.f putq.c second.f speedup.f ts_dynamic.f ----------------------------------------------------------- path: /netlib/sched/newalliant/ ----------------------------------------------------------- README d_and_c.f data ftsubs.f ftsubs.graph.f lockoff.s lockon.s maindp.f make1 makefile newevdp0.f nops.s oldtest putq.c second.f stateig.f statses.f stseswait.f stuffspawn.f testrun trace.graph trace.ts trace2.graph ts_static.f ----------------------------------------------------------- path: /netlib/sched/newtrace/ ----------------------------------------------------------- active.c all_else.c assign_xy.c atlevel.c build_levels.c c_time.c constants.h draw_level.c drawing.c dumps.c events.c find_parents.c load.c main.c makefile names.c new_tree.c open_tracefile.c procs.c rebuild.c sched.trace.c sched.trace.h sched.trace.icon scheddefs.h search.c structures.h sundecs.h trace.100 trace.dc2new trace.dcnew trace.graph trace.tsnew trcxx.1 trcxx.2 trcxx.3 trcxx.foo window_init.c xxxyyy ----------------------------------------------------------- path: /netlib/sched/sequent/ ----------------------------------------------------------- README cputm.c d_and_c.f data example.f ftsubs.f ftsubs.graph.f maindp.f make1 makefile newevdp0.f oldtest putq.c second.f stateig.f statses.f stseswait.f stuffspawn.f testrun ----------------------------------------------------------- for SHMAP programs as a shar file. path: /netlib/sched/shmap/ ----------------------------------------------------------- SHMAPA/ ----------------------------------------------------------- path: /netlib/sched/shmap/SHMAPA/ ----------------------------------------------------------- SUNVIEW/ X/ makefile src/ trace.Parallel trace.Parallel2 trace.Parallel3 trace.Parallel4 trace.high trace.lu1 trace.lu1.100 trace.lu1pd trace.lu2 trace.lu2.100 trace.lu2pd trace.lu3 trace.lu3.100 trace.lu3.1000 trace.lu3pd trace.luall trace.luallpd trace.makeup trace.mm trace.sgeinv trace.sgetrf trace.sgetrf2 trace.shmlu1 trace.spoinv trace.spoinvl trace.spotrf trace.spotrfl trace.tredb trace.wide ----------------------------------------------------------- path: /netlib/sched/shmap/SHMAPA/SUNVIEW/ ----------------------------------------------------------- anl.cursor makefile procs.c shmapa.cursor shmapa.icon window_init.c ----------------------------------------------------------- path: /netlib/sched/shmap/SHMAPA/X/ ----------------------------------------------------------- makefile procs.c window_init.c ----------------------------------------------------------- path: /netlib/sched/shmap/SHMAPA/src/ ----------------------------------------------------------- cache_stuff.c color_map.c flash_access.c load.c map_matrix.c open_tracefile.c print_stats.c process_file.c program_init.c read_args.c shmapa.c shmapa.h use_pool.c wd_drawing.c ----------------------------------------------------------- for Sun verion of the Schedule program path: /netlib/sched/sun/ ----------------------------------------------------------- README blkjac.f d_and_c.f data data.blkjac data.ts_dynamic example.f ftsubs.f ftsubs.graph.f indx0.h indxj.h make1 makefile maxparms.h oldtest putq.c second.f stuffspawn.f testrun ts_dynamic.f ----------------------------------------------------------- for Sun-4 verion of the Schedule program path: /netlib/sched/sun4/ ----------------------------------------------------------- README args.h assign.h blkjac.f d_and_c.f data data.blkjac data.ts_dynamic defs.h example.f ftsubs.F indx0.h indxj.h make1 makefile newsched.h oldtest putq.c second.f stuffspawn.f testrun ts_dynamic.f ----------------------------------------------------------- for trace the flow of execution for an application path: /netlib/sched/trace/ ----------------------------------------------------------- TRACE/ ----------------------------------------------------------- path: /netlib/sched/trace/TRACE/ ----------------------------------------------------------- README SUNVIEW/ X/ shar_me src/ trace.100 trace.b21eig trace.dandc trace.eth trace.simple trace.tsnew trace.tsspawn ----------------------------------------------------------- path: /netlib/sched/trace/TRACE/SUNVIEW/ ----------------------------------------------------------- color_stuff.c main.c makefile procs.c sched.trace.icon wd_drawing.c window_init.c ----------------------------------------------------------- path: /netlib/sched/trace/TRACE/X/ ----------------------------------------------------------- Slider.c Slider.h SliderP.h c_time.c color_stuff.c main.c makefile procs.c wd_drawing.c window_init.c ----------------------------------------------------------- path: /netlib/sched/trace/TRACE/src/ ----------------------------------------------------------- Slider.h active.c assign_xy.c atlevel.c build_levels.c c_time.c cgiconstants.h cgidefs.h cgipw.h draw_level.c draw_path.c draw_subtree.c drawing.c dumps.c events.c find_parents.c get_path_len.c legend.c load.c new_tree.c open_tracefi.c pathes.c rebuild.c sched.trace.h searches.c ----------------------------------------------------------- for Vax verion of the Schedule program path: /netlib/sched/vax/ ----------------------------------------------------------- README d_and_c.f data ftsubs.f ftsubs.graph.f lockoff.f lockon.f maindp.f make1 makefile newevdp0.f nops.f oldtest putq.c second.f stateig.f statses.f stseswait.f stuffspawn.f testrun ----------------------------------------------------------- # a portable FORTRAN emulation (by M.J. McBride path: /netlib/scilib/ ----------------------------------------------------------- blasd.out blass.out date.f doc fftd.out ffts.out filterd.out filters.out gatscatd.out gatscats.out info linrecd.out linrecs.out mail makefile matrix.out matrixd.out matrixs.out readme for overview of scilib blass.f prec single for Basic Linear Algebra Subprograms searchd.out searchs.f prec single for Search/When/Ordered Search subprograms linrecs.f prec single for Linear Recurrence subprograms matrixs.f prec single for Matrix Utilities subprograms ffts.f prec single for Fast Fourier Transform subprograms filters.f prec single for Filter subprograms gatscats.f prec single for Gather/Scatter subprograms linpacks.f prec single for LINPACK eispacks.f prec single for EISPACK blasd.f prec double for Basic Linear Algebra Subprograms searchd.f prec double for Search/When/Ordered Search subprograms linrecd.f prec double for Linear Recurrence subprograms matrixd.f prec double for Matrix Utilities subprograms fftd.f prec double for Fast Fourier Transform subprograms filterd.f prec double for Filter subprograms gatscatd.f prec double for Gather/Scatter subprograms linpackd.f prec double for LINPACK eispackd.f prec double for EISPACK drblass.f prec single for Test driver for BLAS drsrchs.f prec single for Test driver for SEARCH/WHEN/Ordered Search drlinrs.f prec single for Test driver for Linear Recurrence drmats.f prec single for Test driver for Matrix Utilities drffts.f prec single for Test driver for FFT drfilts.f prec single for Test driver for filters drgats.f prec single for Test driver for Gather/Scatter drblasd.f prec double for Test driver for BLAS drsrchd.f prec double for Test driver for SEARCH/WHEN/Ordered Search drlinrd.f prec double for Test driver for Linear Recurrence drmatd.f prec double for Test driver for Matrix Utilities drfftd.f prec double for Test driver for FFT drfiltd.f prec double for Test driver for filters drgatd.f prec double for Test driver for Gather/Scatter blas.dat for Test database for BLAS search.dat for Test database for SEARCH/WHEN/Ordered Search linrec.dat for Test database for Linear Recurrence matrix.dat for Test database for Matrix Utilities fft.dat for Test database for FFT filter.dat for Test database for filters gatscat.dat for Test database for Gather/Scatter sciport.hlp for Help file for creating help library for VAX/VMS sciport.1 for UNIX man pages for sciport craysys.dat for file used to identify cray machine and system software used to accumulate scilib results for checking sciport. Read on unit 3 by test drivers. searchs.out sunf77 udate.f ----------------------------------------------------------- for eigenvalues and eigenvectors path: /netlib/seispack/ ----------------------------------------------------------- .depend cdiv.f csroot.f dependencies epslon.f error files makefile otqlrat.f pythag.f readme for overview of seispack ex/ for This directory contains a complete set of testing routines for seispack. bakvec.f gams D4c4 for back transformation, sign-symmetric matrix balanc.f gams D4c1a for scaling, general matrix balbak.f gams D4c4 for back scaling, general matrix bandr.f gams D4c1b1 for reduction, symmetric band matrix bandv.f gams D4c3 for some eigenvectors, symmetric band matrix bisect.f gams D4a5,D4c2a for some eigenvalues, symmetric tridiagonal matrix bqr.f gams D4a6 for some eigenvalues, symmetric band matrix cbabk2.f gams D4c4 for back scaling, complex matrix cbal.f gams D4c1a for scaling, complex matrix cg.f gams D4a4 for find eigenvalues and eigenvectors, complex general matrix ch.f gams D4a3 for find eigenvalues and eigenvectors, complex Hermitian matrix cinvit.f gams D4c2b for some eigenvectors, complex Hessenberg matrix combak.f gams D4c4 for back transformation, complex matrix comhes.f gams D4c1b2 for reduction, complex matrix comlr.f gams D4c2b for all eigenvalues, complex Hessenberg matrix comlr2.f gams D4c2b for all eigenvalues and eigenvectors, complex Hessenberg matrix comqr.f gams D4c2b for all eigenvalues, complex Hessenberg matrix comqr2.f gams D4c2b for all eigenvalues and eigenvectors, complex Hessenberg matrix cortb.f gams D4c4 for back transformation, complex matrix corth.f gams D4c1b2 for reduction, complex matrix elmbak.f gams D4c4 for back transformation, real matrix elmhes.f gams D4c1b2 for reduction, real matrix eltran.f gams D4c4 for reduction, real matrix figi.f gams D4c1c for reduction, sign-symmetric matrix figi2.f gams D4c1c for reduction, sign-symmetric matrix hqr.f gams D4c2b for all eigenvalues, real Hessenberg matrix hqr2.f gams D4c2b for all eigenvalues and eigenvectors, real Hessenberg matrix htrib3.f gams D4c4 for back transformation, Hermitian packed matrix htribk.f gams D4c4 for back transformation, Hermitian matrix htrid3.f gams D4c1b1 for reduction, Hermitian packed matrix htridi.f gams D4c1b1 for reduction, Hermitian matrix imtql1.f gams D4a5,D4c2a for all eigenvalues, symmetric tridiagonal matrix imtql2.f gams D4a5,D4c2a for all eigenvalues and eigenvectors, symmetric tridiagonal matrix imtqlv.f gams D4a5,D4c2a for all eigenvalues, symmetric tridiagonal matrix invit.f gams D4c2b for some eigenvectors, real Hessenberg matrix minfit.f gams D6 for least squares, real matrix ortbak.f gams D4c4 for back transformation, real matrix orthes.f gams D4c1b2 for reduction, real matrix ortran.f gams D4c4 for reduction, real matrix qzhes.f gams D4c1b3 for reduction, generalized matrix qzit.f gams D4c1b3 for further reduction, generalized Hessenberg matrix qzval.f gams D4c2c for all eigenvalues, generalized Hessenberg matrix qzvec.f gams D4c3 for all eigenvectors, generalized Hessenberg matrix ratqr.f gams D4a5,D4c2a for some eigenvalues, symmetric tridiagonal matrix rebak.f gams D4c4 for back transformation, symmetric generalized matrix rebakb.f gams D4c4 for back transformation, symmetric generalized matrix reduc.f gams D4c1c for reduction, symmetric generalized matrix reduc2.f gams D4c1c for reduction, symmetric generalized matrix rg.f gams D4a2 for find eigenvalues and eigenvectors, general matrix rgg.f gams D4b2 for find eigenvalues and eigenvectors, generalized matrix rs.f gams D4a1 for find eigenvalues and eigenvectors, symmetric matrix rsb.f gams D4a6 for find eigenvalues and eigenvectors, band symmetric matrix rsg.f gams D4b1 for find eigenvalues and eigenvectors, generalized symmetric matrix rsgab.f gams D4b1 for find eigenvalues and eigenvectors, generalized symmetric matrix rsgba.f gams D4b1 for find eigenvalues and eigenvectors, generalized symmetric matrix rsm.f for find eigenvalues and eigenvectors, symmetric matrix rsp.f gams D4a1 for find eigenvalues and eigenvectors, packed symmetric matrix rst.f gams D4a5 for find eigenvalues and eigenvectors, tridiagonal symmetric matrix rt.f gams D4a5 for find eigenvalues and eigenvectors, sign-symmetric tridiagonal matrix svd.f gams D6 for singular value decomposition, real matrix tinvit.f gams D4c3 for some eigenvectors, symmetric tridiagonal matrix tql1.f gams D4a5,D4c2a for all eigenvalues, symmetric tridiagonal matrix tql2.f gams D4a5,D4c2a for all eigenvalues and eigenvectors, symmetric tridiagonal matrix tqlrat.f gams D4a5,D4c2a for all eigenvalues, symmetric tridiagonal matrix trbak1.f gams D4c4 for back transformation, symmetric matrix trbak3.f gams D4c4 for back transformation, packed symmetric matrix tred1.f gams D4c1b1 for reduction, symmetric matrix tred2.f gams D4c1b1 for reduction, symmetric matrix tred3.f gams D4c1b1 for reduction, packed symmetric matrix tridib.f gams D4a5,D4c2a for some eigenvalues, symmetric tridiagonal matrix tsturm.f gams D4a5,D4c2a for some eigenvalues and eigenvectors, symmetric tridiagonal matrix ----------------------------------------------------------- for This directory contains a complete set of path: /netlib/seispack/ex/ ----------------------------------------------------------- # Index file for seispack/ex cgtest.f chtest.f file33 file34 file35 file36 file37 file38 file39 file40 file41 file42 file43 file44 file45 file46 file47 file48 file49 file50 file51 file52 foo2 rbltest.f rggtest.f rgtest.f rltest.f rsbtest.f rsgatst.f rsgbtst.f rsgtest.f rsptest.f rstest.f rsttest.f rttest.f ----------------------------------------------------------- for software from the Sequent Users Group path: /netlib/sequent/ ----------------------------------------------------------- readme for overview of sequent screen for is a virtual terminal manager for people with regular terminals (folks too poor to buy Sun's for every programmer). It lets you have multiple independant sessions, each on it's own full size screen. It's very useful, seemingly bug free, and we use it here quite a lot. by Patrick Wolfe Nov 1987 prolog/ for implements "standard" (Clocksin & Mellish) Prolog, including a compiler to translate prolog to Warren Abstract Machine (WAM) byte codes. # To receive the files try: send prolog from sequent by Bob Beck, Sequent 12/23/87 team for was motivated by requests for single user mode privileges for benchmarking purposes. Its predecessor was a shell script from Southern Methodist University. by Russell Ruby - russ@cs.orst.edu - February 1988 - Oregon State University schedule/ for The Schedule Package is an environment for the transportable implementation of parallel algorithms in a Fortran setting. By this we mean that a user's code is virtually identical for each machine. The Schedule Package has been designed to aid a programmer familiar with a Fortran programming environment to implement a parallel algorithm in a manner that will lend itself to transporting the resulting program across a wide variety of parallel machines. The package is designed to allow existing Fortran subroutines to be called through Schedule, without modification, thereby permitting users access to a wide body of existing library software in a parallel setting. by Jack Dongarra and Dan Sorensen Mathematics and Computer Science Division Argonne National Laboratory June 1987 parmacs/ for This is an implementation of the shared-memory constructs from ANL Parmacs (Lusk, Overbeek, et.al.) in C++. It illustrates how C++ can be used to build parallel programming constructs, and numerous advantages over the ANL M4 implementation. These advantages include extensibility, strong type checking, ease of readability and use, and use of an object-oriented lanuage. by Bob Beck, Sequent Computer Systems, 9/88 ----------------------------------------------------------- for This is an implementation of the shared-memory path: /netlib/sequent/parmacs/ ----------------------------------------------------------- Makefile PCC README examples/ main.C parmacs.C parmacs.h pfinish.C pinit.C shdelete.C shnew.C slist.C slist.h workQ.h ----------------------------------------------------------- path: /netlib/sequent/parmacs/examples/ ----------------------------------------------------------- Makefile af.C gQ.C gs.C gsaf.C ll.C lo.C mQ.C prime.C sQ.C ----------------------------------------------------------- for implements "standard" (Clocksin & Mellish) path: /netlib/sequent/prolog/ ----------------------------------------------------------- COPYING Makefile README README.2 SIMPATH VERSIONS cmplib/ doc/ lib/ modlib/ prolog sim/ ----------------------------------------------------------- path: /netlib/sequent/prolog/cmplib/ ----------------------------------------------------------- $alloctvars1 $asm1 $asmbgen1 $asmpass11 $asmpass21 $aux1 $compile $compile1 $computil1 $cond1 $convrhs1 $disjunc1 $eval1 $factor1 $flatten1 $geninline1 $getclauses $index1 $inline1 $inprog1 $inst1 $listutil1 $normvarocc1 $peephole1 $preprocess1 $procarglist1 $procclp1 $prococc1 $prococcbody1 $procvars1 $targlist1 $tcond1 $tgoal1 $tindex1 $tprog1 $transform1 $translate1 $translcuts1 README cmplib_src/ ----------------------------------------------------------- path: /netlib/sequent/prolog/cmplib/cmplib_src/ ----------------------------------------------------------- $alloctvars1.P $asm1.P $asmbgen1.P $asmpass11.P $asmpass21.P $aux1.P $compile1.P $computil1.P $cond1.P $cond1.P.asl $convrhs1.P $disjunc1.P $eval1.P $factor1.P $flatten1.P $geninline1.P $getclauses.P $index1.P $inline1.P $inprog1.P $inst1.P $listutil1.P $normvarocc1.P $peephole1.P $preprocess1.P $procarglist1.P $procclp1.P $prococc1.P $prococcbody1.P $procvars1.P $targlist1.P $tcond1.P $tgoal1.P $tindex1.P $tprog1.P $translate1.P $translcuts1.P catf defs/ makeall ----------------------------------------------------------- path: /netlib/sequent/prolog/cmplib/cmplib_src/defs/ ----------------------------------------------------------- $alloctvars1.P.def $asm1.P.def $asmbgen1.P.def $asmpass11.P.def $asmpass21.P.def $aux1.P.def $computil1.P.def $cond1.P.def $convrhs1.P.def $eval1.P.def $factor1.P.def $flatten1.P.def $geninline1.P.def $index1.P.def $inline1.P.def $inprog1.P.def $inst1.P.def $listutil1.P.def $macro1.P.def $normvarocc1.P.def $peephole1.P.def $preprocess1.P.def $procarglist1.P.def $prococc1.P.def $prococcbody1.P.def $tgoal1.P.def $tindex1.P.def $tprog1.P.def $translcuts1.P.def ----------------------------------------------------------- path: /netlib/sequent/prolog/doc/ ----------------------------------------------------------- data.rep macros man.0 man.1 man.10 man.11 man.12 man.13 man.14 man.15 man.16 man.17 man.18 man.19 man.2 man.3 man.4 man.5 man.6 man.7 man.8 man.9 xmk ----------------------------------------------------------- path: /netlib/sequent/prolog/lib/ ----------------------------------------------------------- $exists access call_ref errno flags mode op restore save sockets src/ statistics subsumes ----------------------------------------------------------- path: /netlib/sequent/prolog/lib/src/ ----------------------------------------------------------- $exists.P access.P call_ref.P errno.P flags.P makeall mode.P op.P restore.P save.P sockets.P statistics.P subsumes.P ----------------------------------------------------------- path: /netlib/sequent/prolog/modlib/ ----------------------------------------------------------- $arith $assert $bio $blist $bmeta $buff $call $compare $consult $db $dbcmpl $deb $defint $et $glob $init_sys $inlines $io $listutil1 $mac $meta $name $o $osys $prag $prof $prorc $read $readloop $retr $setof src/ ----------------------------------------------------------- path: /netlib/sequent/prolog/modlib/src/ ----------------------------------------------------------- $arith.P $assert.P $bio.P $blist.P $bmeta.P $buff.P $call.P $compare.P $consult.P $db.P $dbcmpl.P $deb.P $defint.P $et.P $glob.P $init_sys.P $inlines.P $io.P $listutil1.P $mac.P $meta.P $name.P $o.P $osys.P $prag.P $prof.P $prorc.P $read.P $readloop.P $retr.P $setof.P defs/ makeall ----------------------------------------------------------- path: /netlib/sequent/prolog/modlib/src/defs/ ----------------------------------------------------------- $assertf.P.def $call.P.def $dbcmpl.P.def $inlines.P.def $read.P.def ----------------------------------------------------------- path: /netlib/sequent/prolog/sim/ ----------------------------------------------------------- Makefile README aux.c aux.h bench builtin/ dis.c dispatch.c eofinst float.c index.h init.c inst.h io.c load_work.c loader.c main.c newlips.P parse_oprnd.c print_inst.c sim.h simdef.h sub_inst.c unify.c ----------------------------------------------------------- path: /netlib/sequent/prolog/sim/builtin/ ----------------------------------------------------------- Makefile README arith.c buffer.c builtin.c builtin.h compare.c file.c init_branch.c meta.c name.c other.c pseudo_curses.h saverest.c structure.c substuff.c syscmap.c time.c tio.c ----------------------------------------------------------- for The Schedule Package is an environment for the path: /netlib/sequent/schedule/ ----------------------------------------------------------- README cputm.c d_and_c.f data example.f ftsubs.f ftsubs.graph.f maindp.f make1 makefile newevdp0.f oldtest putq.c second.f stateig.f statses.f stseswait.f stuffspawn.f testrun ----------------------------------------------------------- ref Computer Methods for Mathematical Computations path: /netlib/sfmm/ ----------------------------------------------------------- .depend dependencies error f.f fehl.f fun.f makefile orbit.f readme for overview of sfmm decomp.f for decomposes a matrix by Gaussian elimination and estimates the condition of the matrix prec single rkfs.f seval.f sfmm.lib solve.f for solution of linear system, A*x = b, do not use if (fmm/decomp) has detected a singularity prec single quanc8.f for estimate the integral of f(x) in a finite interval, user provided tolerance using an automatic adaptive routine based on the 8-panel Newton-Cotes rule prec single rkf45.f for Fehlberg fourth-fifth order Runge-Kutta method prec single spline.f for the coefficients for a cubic interpolating spline are computed prec single svd.f for determines the singular value decomposition, SVD, of a real rectangular matrix, using Householder bidiagonalization and a variant of the QR algorithm prec single fmin.f for an approximation to the point where a user function attains a minimum on an interval is determined prec single zeroin.f for find a zero of a user function in an interval prec single ----------------------------------------------------------- for iterative symmetric and non-symmetric linear path: /netlib/slap/ ----------------------------------------------------------- quick.index readme for overview of slap slap/ for SLAP Version 2.0 source code # This is all you need to get SLAP. prec single dlap/ for SLAP Version 2.0 source code # This is all you need to get SLAP. prec double slapqc/ for SLAP Quick Check, support, documentation prec single dlapqc/ for SLAP Quick Check, support, documentation prec single ----------------------------------------------------------- for SLAP Version 2.0 source code path: /netlib/slap/dlap/ ----------------------------------------------------------- READ.ME dbcg.f dcg.f dcgn.f dcgs.f dgmres.f dir.f dlaputil.f dmset.f dmvops.f domn.f makefile ----------------------------------------------------------- for SLAP Quick Check, support, documentation path: /netlib/slap/dlapqc/ ----------------------------------------------------------- blas.f dlapdoc.f dlapqc.f mach.f xersla.f ----------------------------------------------------------- for SLAP Version 2.0 source code path: /netlib/slap/slap/ ----------------------------------------------------------- READ.ME makefile sbcg.f scg.f scgn.f scgs.f sgmres.f sir.f slaputil.f smset.f smvops.f somn.f ----------------------------------------------------------- for SLAP Quick Check, support, documentation path: /netlib/slap/slapqc/ ----------------------------------------------------------- blas.f mach.f slapdoc.f slapqc.f tstutil.f xersla.f ----------------------------------------------------------- # comprehensive software library containing over path: /netlib/slatec/ ----------------------------------------------------------- # SLATEC Common Mathematical Library, Version 4.1, July 1993 # a comprehensive software library containing over # 1400 general purpose mathematical and statistical routines # written in Fortran 77. dependencies disclaimer readme for overview of slatec slatec_src/ for (FOR NON EMAIL USERS ONLY) Compressed tar file of complete SLATEC source. (4027585 bytes) Individual routines can be retrieved from src subdirectory. slatec_chk/ for (FOR NON EMAIL USERS ONLY) Compressed tar file of SLATEC quick checks. (671029 bytes) Individual routines can be retrieved from chk subdirectory. err/ for xersav and other error handling from old version of SLATEC used by several other packages in netlib toc for SLATEC table of contents size 227 kB gams for GAMS classification guide for Guide to the SLATEC Common Mathematical Library slatecm/ for browser for any library using SLATEC prologues by David M Woodcock age experimental src/ # This library contains the main SLATEC Fortran source. There are five (5) machine specific subprograms, (D1MACH, I1MACH, R1MACH, FDUMP and XERHLT) in the source file. These are described further in the next two paragraphs. Machine constants, such as word length and maximum positive exponent, are supplied to routines in SLATEC source via the functions D1MACH, I1MACH and R1MACH. Make sure that each machine type at your site returns the correct values for these functions. In most cases, this only requires replacing a "C" with a blank in the first column of several lines of each function. The copies of D1MACH, I1MACH and R1MACH included in the source have all the machine specific constants commented out with a "C" in column one. The standard error handler has two machine dependent subroutines in it: FDUMP and XERHLT. The routine XERHLT is called via XERMSG when a fatal error is encountered and must terminate the job. The copy of XERHLT included in this file contains a "STOP" and thus does stop execution. However, in most circumstances, this normal exit is unacceptable when an error has been detected and this subroutine should be replaced at each site. The routine FDUMP is called via XERMSG when traceback information is desired. This routine should provide the traceback information to appropriate output files. The copy of FDUMP included in the source does not produce traceback information. If this function is desired, it must be implemented at each site. It is assumed that all ANSI-77 standard intrinsic functions are vendor-supplied and, therefore, are not included in the main SLATEC source. In the event that some of these subprograms are not resident on the system (e.g. DINT on CDC), many are included in the subsid. (See below.) In some cases, the higher special functions (e.g. error functions, Bessel functions) anticipate that certain errors will be handled in the intrinsic functions. This may not be done appropriately in vendor-supplied intrinsic functions and may cause difficulties. lin/ for the BLAS, LINPACK, EISPACK, SLAP subset of SLATEC # removed from slatec/src to make the main source more accessible see also /netlib/blas, /netlib/linpack, /netlib/eispack, /netlib/slap fishfft/ for the FISHPACK, FFTPACK subset of SLATEC # removed from slatec/src to make the main source more accessible see also /netlib/fishpack, /netlib/fftpack fnlib/ for the FNLIB subset of SLATEC # removed from slatec/src to make the main source more accessible see also /netlib/fn, which is another version; we don't really know which one is more recent or bug-free. If you figure it out please send email to ehg@research.att.com. pchip/ for piecewise cubic hermite approximation # removed from slatec/src to make the main source more accessible see also /netlib/pchip chk/ for 54 quick check drivers # If some of the quick checks fail on certain machines, it does not necessarily indicate a problem in the source, but possibly in the quick checks themselves, or the machine architecture or the operating system or the compiler or vendor or user supplied software. The main programs (quick check drivers) are test01.f,...,test54.f. On the VAX under VMS, the quick checks should be run with KPRINT = 0 or 1 (zero or one). docinstall for installation note for the Los Alamos documentation program slprep for Los Alamos on-line documentation # generates four files which comprise the database for the on-line documentation program sladoc for on-line documentation subsid for subsidiary programs for slprep and sladoc spfun for elementary special functions spfunchk for quick checks for the elementary special functions install for installation note list for list of subprograms tree1 for list of routines directly referenced tree for list of routines directly or indirectly referenced ----------------------------------------------------------- for 54 quick check drivers path: /netlib/slatec/chk/ ----------------------------------------------------------- .depend avntst.f for Quick check for AVINT. by (UNKNOWN) bikck.f for Quick check for BESI and BESK. by Amos, D. E., (SNLA) bjyck.f for Quick check for BESJ and BESY. by Amos, D. E., (SNLA) blachk.f for Quick check for Basic Linear Algebra Subprograms. by Lawson, C. L., (JPL) bspck.f for Quick check for the B-Spline package. by (UNKNOWN) cbeg.f for Generate random numbers. by Du Croz, J. (NAG) cblat2.f for Driver for testing Level 2 BLAS complex subroutines. gams A4 by Du Croz, J. J., (NAG) cblat3.f for Driver for testing Level 3 BLAS complex subroutines. gams A4 by Dongarra, J. J., (ANL) cchk12.f for Quick check for CGEMV and CGBMV. by Du Croz, J. (NAG) cchk13.f for Quick check for CGEMM. by Dongarra, J. J., (ANL) cchk22.f for Quick check for CHEMV, CHBMV, CHPMV. by Du Croz, J. (NAG) cchk23.f for Quick check for CHEMM and CSYMM. by Dongarra, J. J., (ANL) cchk32.f for Quick check for CTRMV, CTBMV, CTPMV, CTRSV, CTBSV and by Du Croz, J. (NAG) cchk33.f for Quick check for CTRMM and CTRSM. by Dongarra, J. J., (ANL) cchk42.f for Quick check for CGERC and CGERU. by Du Croz, J. (NAG) cchk43.f for Quick check for CHERK and CSYRK. by Dongarra, J. J., (ANL) cchk52.f for Quick check for CHER and CHPR. by Du Croz, J. (NAG) cchk53.f for Quick check for CHER2K and CSYR2K. by Dongarra, J. J., (ANL) cchk62.f for Quick check for CHER2 and CHPR2. by Du Croz, J. (NAG) cchke2.f for Test the error exits from the Level 2 Blas. by Du Croz, J. J., (NAG) cchke3.f for Test the error exits from the Level 3 Blas. by Dongarra, J. J., (ANL) cchqc.f for Quick check for CCHDC. by Voorhees, E. A., (LANL) cdf.f for Quick check for SLATEC routines CDRIV1, CDRIV2 and CDRIV3. gams I1A2, I1A1B by Kahaner, D. K., (NIST) cdqag.f for Quick check for DQAG. by (UNKNOWN) cdqagi.f for Quick check for DQAGI. by (UNKNOWN) cdqagp.f for Quick check for DQAGP. by (UNKNOWN) cdqags.f for Quick check for DQAGS. by (UNKNOWN) cdqawc.f for Quick check for DQAWC. by (UNKNOWN) cdqawf.f for Quick check for DQAWF. by (UNKNOWN) cdqawo.f for Quick check for DQAWO. by (UNKNOWN) cdqaws.f for Quick check for DQAWS. by (UNKNOWN) cdqck.f for Quick check for SLATEC routines CDRIV1, CDRIV2 and CDRIV3. gams I1A2, I1A1B by Kahaner, D. K., (NIST) cdqng.f for Quick check for DQNG. by (UNKNOWN) cfnck.f for Quick check for the complex Fullerton special functions. by Boland, W. Robert, (LANL) cgbqc.f for Quick check for CGBFA, CGBCO, CGBSL and CGBDI. by Voorhees, E. A., (LANL) cgeck.f for Quick check for CGEFA, CGECO, CGESL and CGEDI. by Voorhees, E. A., (LANL) cgeqc.f for Quick check for CGEFS and CGEIR. by Jacobsen, Nancy, (LANL) cgtqc.f for Quick check for CGTSL. by Voorhees, E. A., (LANL) check0.f for (UNKNOWN) by Lawson, C. L., (JPL) check1.f for (UNKNOWN) by Lawson, C. L., (JPL) check2.f for (UNKNOWN) by Lawson, C. L., (JPL) chiqc.f for Quick check for CHIFA, CHICO, CHISL and CHIDI. by Voorhees, E. A., (LANL) chkxer.f for Test whether an error has been detected. by Du Croz, J. J., (NAG) chpqc.f for Quick check for CHPFA, CHPCO, CHPSL and CHPDI. by Voorhees, E. A., (LANL) cmake2.f for Generate values for an M by N matrix A. by Du Croz, J. J., (NAG) cmake3.f for Generate values for an M by N matrix A. by Dongarra, J. J., (ANL) cmmch.f for Check the results of the computational tests. by Dongarra, J. J., (ANL) cmpare.f for Compare values in COMMON block CHECK for quick check by (UNKNOWN) cmvch.f for Check the results of the computational tests. by Du Croz, J. J., (NAG) comp.f for Compare actual and expected values of error flag. by Fritsch, F. N., (LLNL) cpbqc.f for Quick check for CPBFA, CPBCO, CPBSL and CPBDI. by Voorhees, E. A., (LANL) cpoqc.f for Quick check for CPOFA, CPOCO, CPOSL and CPODI. by Voorhees, E. A., (LANL) cppqc.f for Quick check for CPPFA, CPPCO, CPPSL and CPPDI. by Voorhees, E. A., (LANL) cprin.f for Subsidiary to CQAG, CQAG, CQAGI, CQAGP, CQAGS, CQAWC, by Piessens, Robert cprpqx.f for Quick check for CPZERO and RPZERO. by Kahaner, D. K., (NBS) cptqc.f for Quick check for CPTSL. by Voorhees, E. A., (LANL) cqag.f for Quick check for QAG. by (UNKNOWN) cqagi.f for Quick check for QAGI. by (UNKNOWN) cqagp.f for Quick check for QAGP. by (UNKNOWN) cqags.f for Quick check for QAGS. by (UNKNOWN) cqawc.f for Quick check for QAWC. by (UNKNOWN) cqawf.f for Quick check for QAWF. by (UNKNOWN) cqawo.f for Quick check for QAWO. by (UNKNOWN) cqaws.f for Quick check for QAWS. by (UNKNOWN) cqcai.f for Quick check for SLATEC subroutines gams C10D by Amos, Don, (SNL) cqcbh.f for Quick check for SLATEC subroutine gams C10A4 by Amos, Don, (SNL) cqcbi.f for Quick check for SLATEC subroutine gams C10B4 by Amos, Don, (SNL) cqcbj.f for Quick check for SLATEC subroutine gams C10A4 by Amos, Don, (SNL) cqcbk.f for Quick check for SLATEC subroutine gams C10B4 by Amos, Don, (SNL) cqcby.f for Quick check for SLATEC subroutine gams C10A4 by Amos, Don, (SNL) cqck.f for Quick check for CPOFS, CPOIR, CNBFS and CNBIR. by Voorhees, E. A., (LANL) cqng.f for Quick check for QNG. by (UNKNOWN) cqrqc.f for Quick check for CQRDC and CQRSL. by Voorhees, E. A., (LANL) cqrtst.f for Quick check for CPQR79. by (UNKNOWN) csiqc.f for Quick check for CSIFA, CSICO, CSISL and CSIDI. by Voorhees, E. A., (LANL) cspqc.f for Quick check for CSPFA, CSPCO, CSPSL and CSPDI. by Voorhees, E. A., (LANL) csvqc.f for Quick check for CSVDC. by Voorhees, E. A., (LANL) ctrqc.f for Quick check for CTRFA, CTRCO, CTRSL and CTRDI. by Voorhees, E. A., (LANL) davnts.f for Quick check for DAVINT. by (UNKNOWN) dbeg.f for Generate random numbers. by Du Croz, J. (NAG) dbikck.f for Quick check for DBESI and DBESK. by Amos, D. E., (SNLA) dbjyck.f for Quick check for DBESJ and DBESY. by Amos, D. E., (SNLA) dblat2.f for Driver for testing Level 2 BLAS double precision gams A3B by Du Croz, J. J., (NAG) dblat3.f for Driver for testing Level 3 BLAS double precision gams A3B by Dongarra, J. J., (ANL) dbocqx.f for Quick check for DBOCLS. by (UNKNOWN) dbspck.f for Quick check for the B-spline package. by (UNKNOWN) dchk12.f for Test DGEMV and DGBMV. by Du Croz, J. (NAG) dchk13.f for Test DGEMM. by Dongarra, J. J., (ANL) dchk22.f for Test DSYMV, DSBMV and DSPMV. by Du Croz, J. (NAG) dchk23.f for Test DSYMM. by Dongarra, J. J., (ANL) dchk32.f for Test DTRMV, DTBMV, DTPMV, DTRSV, DTBSV and DTPSV. by Du Croz, J. (NAG) dchk33.f for Test DTRMM and DTRSM. by Dongarra, J. J., (ANL) dchk42.f for Test DGER. by Du Croz, J. (NAG) dchk43.f for Test DSYRK. by Dongarra, J. J., (ANL) dchk52.f for Test DSYR and DSPR. by Du Croz, J. (NAG) dchk53.f for Test DSYR2K. by Dongarra, J. J., (ANL) dchk62.f for Test DSYR2 and DSPR2. by Du Croz, J. (NAG) dchke2.f for Test the error exits from the Level 2 Blas. by Du Croz, J. J., (NAG) dchke3.f for Test the error exits from the Level 3 Blas. by Dongarra, J. J., (ANL) dcmpar.f for Compare values in COMMON block DCHECK for quick check by (UNKNOWN) ddasqc.f for Quick check for SLATEC routine DDASSL. gams I1A2 by PETZOLD, LINDA R., (LLNL) ddf.f for Quick check for SLATEC routines DDRIV1, DDRIV2 and DDRIV3. gams I1A2, I1A1B by Kahaner, D. K., (NIST) ddjac1.f for First Jacobian evaluator for DDASQC. by PETZOLD, LINDA R., (LLNL) ddjac2.f for Second Jacobian evaluator for DDASQC. by PETZOLD, LINDA R., (LLNL) ddqck.f for Quick check for SLATEC routines DDRIV1, DDRIV2 and DDRIV3. gams I1A2, I1A1B by Kahaner, D. K., (NIST) ddres1.f for First residual evaluator for DDASQC. by PETZOLD, LINDA R., (LLNL) ddres2.f for Second residual evaluator for DDASQC. by PETZOLD, LINDA R., (LLNL) dedit2.f for Subsidiary to DDASQC. by PETZOLD, LINDA R., (LLNL) deg8ck.f for Quick check for DEXINT and DGAUS8. by Amos, D. E., (SNLA) devchk.f for Test evaluation accuracy of DCHFDV and DCHFEV for DPCHQ1. by Fritsch, F. N., (LLNL) deverk.f for Test error returns from DPCHIP evaluators for DPCHQ1. by Fritsch, F. N., (LLNL) devpck.f for Test usage of increment argument in DPCHFD and DPCHFE for by Fritsch, F. N., (LLNL) df0c.f for Subsidiary to by (UNKNOWN) df0f.f for Subsidiary to by (UNKNOWN) df0o.f for Subsidiary to by (UNKNOWN) df0s.f for Subsidiary to by (UNKNOWN) df0ws.f for Subsidiary to by (UNKNOWN) df1c.f for Subsidiary to by (UNKNOWN) df1f.f for Subsidiary to by (UNKNOWN) df1g.f for Subsidiary to by (UNKNOWN) df1n.f for Subsidiary to by (UNKNOWN) df1o.f for Subsidiary to by (UNKNOWN) df1p.f for Subsidiary to by (UNKNOWN) df1s.f for Subsidiary to by (UNKNOWN) df1ws.f for Subsidiary to by (UNKNOWN) df2g.f for Subsidiary to by (UNKNOWN) df2n.f for Subsidiary to by (UNKNOWN) df2o.f for Subsidiary to by (UNKNOWN) df2p.f for Subsidiary to by (UNKNOWN) df2s.f for Subsidiary to by (UNKNOWN) df3g.f for Subsidiary to by (UNKNOWN) df3p.f for Subsidiary to by (UNKNOWN) df3s.f for Subsidiary to by (UNKNOWN) df4p.f for Subsidiary to by (UNKNOWN) df4s.f for Subsidiary to by (UNKNOWN) df5s.f for Subsidiary to by (UNKNOWN) dfb.f for Subsidiary to by (UNKNOWN) dfcn1.f for (UNKNOWN) by (UNKNOWN) dfcn2.f for (UNKNOWN) by (UNKNOWN) dfcn3.f for (UNKNOWN) by (UNKNOWN) dfcqx.f for Quick check for DFC. by Hanson, R. J., (SNLA) dfdeqc.f for Derivative evaluator for DDEPAC quick checks. by Chow, Jeff, (LANL) dfdtru.f for Compute exact function values for DEVCHK. by Fritsch, F. N., (LLNL) dfein.f for Subsidiary to DEG8CK. by (UNKNOWN) dfill.f for Fill a vector with a value. by Seager, Mark K., (LLNL) dfmat.f for Subsidiary to by (UNKNOWN) dfnck.f for Quick check for the double precision Fullerton by Boland, W. Robert, (LANL) dfqd1.f for Function evaluator for DQNC79 and DGAUS8 quick checks. by Boland, W. Robert, (LANL) dfqd2.f for Function evaluator for DQNC79 and DGAUS8 quick checks. by Boland, W. Robert, (LANL) dfztst.f for Quick check for DFZERO. by Boland, W. Robert, (LANL) dgeqc.f for Quick check for DGEFS. by Jacobsen, Nancy, (LANL) dgvec.f for Subsidiary to by (UNKNOWN) djac.f for Evaluate Jacobian for DDEBDF quick check. by Chow, Jeff (LANL) dlapqc.f for Quick check for testing Sparse Linear Algebra Package gams D2A4, D2B4 by Mark K. Seager (LLNL) dlseit.f for Quick check for DLSEI. by Hanson, R. J., (SNLA) dmake2.f for Generate values for an M by N matrix A. by Du Croz, J. J., (NAG) dmake3.f for Generate values for an M by N matrix A. by Dongarra, J. J., (ANL) dmmch.f for Check the results of the computational tests. by Dongarra, J. J., (ANL) dmvch.f for Check the results of the computational tests. by Du Croz, J. J., (NAG) dnls1q.f for Quick check for DNLS1E, DNLS1, and DCOV. by (UNKNOWN) dnsqqk.f for Quick check for DNSQE and DNSQ. by (UNKNOWN) dpchq1.f for Test the PCHIP evaluators DCHFDV, DCHFEV, DPCHFD, DPCHFE. by Fritsch, F. N., (LLNL) dpchq2.f for Test the PCHIP integrators DPCHIA and DPCHID. by Fritsch, F. N., (LLNL) dpchq3.f for Test the PCHIP interpolators DPCHIC, DPCHIM, DPCHSP. by Fritsch, F. N., (LLNL) dpchq4.f for Test the PCHIP monotonicity checker DPCHCM. by Fritsch, F. N., (LLNL) dpchq5.f for Test the PCH to B-spline conversion routine DPCHBS. by FRITSCH, F. N., (LLNL) dpfitt.f for Quick check for DPOLFT, DPCOEF and DP1VLU. by (UNKNOWN) dplpqx.f for Quick check for DSPLP. by (UNKNOWN) dpntck.f for Quick check for DPLINT, DPOLCF and DPOLVL by Boland, W. Robert, (LANL) dprin.f for Subsidiary to CDQAG, CDQAG, CDQAGI, CDQAGP, CDQAGS, CDQAWC, by Piessens, Robert dqc36j.f for THIS IS A QUICK CHECK PROGRAM FOR THE SUBROUTINES DRC3JJ, gams C19 by LOZIER, DANIEL W., (NIST) dqcgls.f for Quick check for DGLSS. by Voorhees, E. A., (LANL) dqck.f for Quick check for DPOFS AND DNBFS. by Voorhees, E. A., (LANL) dqckin.f for Quick check for DBSKIN. by Amos, D. E., (SNLA) dqcpsi.f for Quick check for DPSIFN. by Amos, D. E., (SNLA) dqfcn2.f for (UNKNOWN) by (UNKNOWN) dqg8ts.f for Quick check for DGAUS8. by (UNKNOWN) dqjac2.f for (UNKNOWN) by (UNKNOWN) dqn79q.f for Quick check for DQNC79. by (UNKNOWN) drmgen.f for This routine generates a "Random" symmetric or by Seager, Mark K., (LLNL) dsosfn.f for Function evaluator for DSOS quick check. by Watts, H. A., (SNLA) dsosqx.f for Quick check for DSOS. by Watts, H. A., (SNLA) dsrtqc.f for Quick check for SLATEC routines DSORT, DPSORT, DPPERM gams N6A by BOISVERT, RONALD, (NIST) dt0.f for Subsidiary to by (UNKNOWN) dt1.f for Subsidiary to by (UNKNOWN) dt2.f for Subsidiary to by (UNKNOWN) dt3.f for Subsidiary to by (UNKNOWN) dt4.f for Subsidiary to by (UNKNOWN) dt5.f for Subsidiary to by (UNKNOWN) dtest.f for Compare arrays DCOMP and DTRUE. by Lawson, C. L., (JPL) duivp.f for Dummy routine for DBVSUP quick check. by Watts, H. A., (SNLA) duterr.f for Output error messages for the SLAP Quick Check. by Seager, Mark K., (LLNL) duvec.f for Dummy routine for DBVSUP quick check. by Watts, H. A., (SNLA) dxcsrt.f for TO COMPUTE CHECK VALUES FOR LEGENDRE FUNCTIONS gams C3A2, C9 by SMITH, JOHN M., (NBS AND GEORGE MASON UNIVERSITY) edit2.f for Subsidiary to SDASQC. by PETZOLD, LINDA R., (LLNL) eg8ck.f for Quick check for EXINT and GAUS8. by Amos, D. E., (SNLA) eisqx1.f for Quick check for SGEEV and CGEEV. by (UNKNOWN) eisqx2.f for Quick check for SSIEV, CHIEV and SSPEV. by Kahaner, D. K., (NBS) evchck.f for Test evaluation accuracy of CHFDV and CHFEV for PCHQK1. by Fritsch, F. N., (LLNL) everck.f for Test error returns from PCHIP evaluators for PCHQK1. by Fritsch, F. N., (LLNL) evpcck.f for Test usage of increment argument in PCHFD and PCHFE for by Fritsch, F. N., (LLNL) f0c.f for Subsidiary to by (UNKNOWN) f0f.f for Subsidiary to by (UNKNOWN) f0o.f for Subsidiary to by (UNKNOWN) f0s.f for Subsidiary to by (UNKNOWN) f0ws.f for Subsidiary to by (UNKNOWN) f1c.f for Subsidiary to by (UNKNOWN) f1f.f for Subsidiary to by (UNKNOWN) f1g.f for Subsidiary to by (UNKNOWN) f1n.f for Subsidiary to by (UNKNOWN) f1o.f for Subsidiary to by (UNKNOWN) f1p.f for Subsidiary to by (UNKNOWN) f1s.f for Subsidiary to by (UNKNOWN) f1ws.f for Subsidiary to by (UNKNOWN) f2g.f for Subsidiary to by (UNKNOWN) f2n.f for Subsidiary to by (UNKNOWN) f2o.f for Subsidiary to by (UNKNOWN) f2p.f for Subsidiary to by (UNKNOWN) f2s.f for Subsidiary to by (UNKNOWN) f3g.f for Subsidiary to by (UNKNOWN) f3p.f for Subsidiary to by (UNKNOWN) f3s.f for Subsidiary to by (UNKNOWN) f4p.f for Subsidiary to by (UNKNOWN) f4s.f for Subsidiary to by (UNKNOWN) f5s.f for Subsidiary to by (UNKNOWN) fb.f for Subsidiary to by (UNKNOWN) fcn1.f for Subsidiary to by (UNKNOWN) fcn2.f for (UNKNOWN) by (UNKNOWN) fcn3.f for (UNKNOWN) by (UNKNOWN) fcnqx1.f for THIS IS A QUICK CHECK PROGRAM FOR THE SUBROUTINES XLEGF gams C3A2, C9 by LOZIER, DANIEL W., (NIST) fcnqx2.f for THIS IS A QUICK CHECK PROGRAM FOR THE SUBROUTINES DXLEGF gams C3A2, C9 by LOZIER, DANIEL W., (NIST) fcqx.f for Quick check for FC. by Hanson, R. J., (SNLA) fdeqc.f for Derivative evaluator for DEPAC quick checks. by Chow, Jeff, (LANL) fdtrue.f for Compute exact function values for EVCHCK. by Fritsch, F. N., (LLNL) fein.f for Subsidiary to EG8CK. by (UNKNOWN) fftqx.f for Quick check for the NCAR FFT routines. by Swarztrauber, P. N., (NCAR) fmat.f for Subsidiary to by (UNKNOWN) fqd1.f for Function evaluator for QNC79 and GAUS8 quick checks. by Boland, W. Robert, (LANL) fqd2.f for Function evaluator for QNC79 and GAUS8 quick checks. by Boland, W. Robert, (LANL) fztest.f for Quick check for FZERO. by (UNKNOWN) gvec.f for Subsidiary to by (UNKNOWN) header.f for Print header for BLAS quick checks. by Lawson, C. L., (JPL) hsrtqc.f for Quick check for SLATEC routine HPSORT, HPPERM gams N6A by BOISVERT, RONALD, (NIST) ismpl.f for Generate integer sample. by Seager, Mark K., (LLNL) isrtqc.f for Quick check for SLATEC routines ISORT, IPSORT, IPPERM gams N6A by BOISVERT, RONALD, (NIST) itest.f for Compare arrays ICOMP and ITRUE. by Lawson, C. L., (JPL) jac.f for Evaluate Jacobian for DEBDF quick check. by Chow, Jeff (LANL) lce.f for Test if two arrays are identical. by Du Croz, J. J., (NAG) lceres.f for Test if selected elements in two arrays are equal. by Du Croz, J. J., (NAG) lde.f for Test if two arrays are identical. by Du Croz, J. J., (NAG) lderes.f for Test if selected elements in two arrays are equal. by Du Croz, J. J., (NAG) lse.f for Test if two arrays are identical. by Du Croz, J. J., (NAG) lseiqx.f for Quick check for LSEI. by Hanson, R. J., (SNLA) lseres.f for Test if selected elements in two arrays are equal. by Du Croz, J. J., (NAG) outerr.f for Output error messages for the SLAP Quick Check. by Seager, Mark K., (LLNL) pass.f for Print a PASS/FAIL message for a particular quick check by (UNKNOWN) pchqk1.f for Test the PCHIP evaluators CHFDV, CHFEV, PCHFD and PCHFE. by Fritsch, F. N., (LLNL) pchqk2.f for Test the PCHIP integrators PCHIA and PCHID. by Fritsch, F. N., (LLNL) pchqk3.f for Test the PCHIP interpolators PCHIC, PCHIM, PCHSP. by Fritsch, F. N., (LLNL) pchqk4.f for Test the PCHIP monotonicity checker PCHCM. by Fritsch, F. N., (LLNL) pchqk5.f for Test the PCH to B-spline conversion routine PCHBS. by FRITSCH, F. N., (LLNL) pfitqx.f for Quick check for POLFIT, PCOEF and PVALUE. by (UNKNOWN) pntchk.f for Quick check for POLINT, POLCOF and POLYVL by (UNKNOWN) qc36j.f for THIS IS A QUICK CHECK PROGRAM FOR THE SUBROUTINES RC3JJ, gams C19 by LOZIER, DANIEL W., (NIST) qc6a.f for Test subroutine AAAAAA. by Boland, W. Robert, (LANL) qcdrc.f for Quick check for DRC. by Pexton, R. L., (LLNL) qcdrd.f for Quick check for DRD. by Pexton, R. L., (LLNL) qcdrf.f for Quick check for DRF. by Pexton, R. L., (LLNL) qcdrj.f for Quick check for DRJ. by Pexton, R. L., (LLNL) qcglss.f for Quick check for SGLSS. by Voorhees, E. A., (LANL) qckin.f for Quick check for BSKIN. by Amos, D. E., (SNLA) qcpsi.f for Quick check for PSIFN. by Amos, D. E., (SNLA) qcrc.f for Quick check for RC. by Pexton, R. L., (LLNL) qcrd.f for Quick check for RD. by Pexton, R. L., (LLNL) qcrf.f for Quick check for RF. by Pexton, R. L., (LLNL) qcrj.f for Quick check for RJ. by Pexton, R. L., (LLNL) qg8tst.f for Quick check for GAUS8. by (UNKNOWN) qn79qx.f for Quick check for QNC79. by (UNKNOWN) qxabm.f for Test the DEPAC routine DEABM. by Chow, Jeff, (LANL) qxbdf.f for Test the DEPAC routine DEBDF. by Chow, Jeff, (LANL) qxblkt.f for (UNKNOWN) by (UNKNOWN) qxbvsp.f for Quick check for BVSUP. by (UNKNOWN) qxcrt.f for (UNKNOWN) by (UNKNOWN) qxcsp.f for (UNKNOWN) by (UNKNOWN) qxcyl.f for (UNKNOWN) by (UNKNOWN) qxdabm.f for Test the DEPAC routine DDEABM. by Chow, Jeff, (LANL) qxdbdf.f for Test the DEPAC routine DDEBDF. by Chow, Jeff, (LANL) qxdbvs.f for Quick check for DBVSUP. by (UNKNOWN) qxdrkf.f for Test the DEPAC routine DDERKF. by Chow, Jeff, (LANL) qxgbun.f for (UNKNOWN) by (UNKNOWN) qxplr.f for (UNKNOWN) by (UNKNOWN) qxrkf.f for Test the DEPAC routine DERKF. by Chow, Jeff, (LANL) qxssp.f for (UNKNOWN) by (UNKNOWN) rqrtst.f for Quick check for RPQR79. by (UNKNOWN) sbeg.f for Generate random numbers. by Du Croz, J. (NAG) sblat2.f for Driver for testing Level 2 BLAS single precision gams A3A by Du Croz, J. J., (NAG) sblat3.f for Driver for testing Level 3 BLAS single precision gams A3A by Dongarra, J. J., (ANL) sbocqx.f for Quick check for SBOCLS. by (UNKNOWN) schk12.f for Quick check for SGEMV and SGBMV. by Du Croz, J. (NAG) schk13.f for Quick check for SGEMM. by Dongarra, J. J., (ANL) schk22.f for Quick check for SSYMV, SSBMV and SSPMV. by Du Croz, J. (NAG) schk23.f for Quick check for SSYMM. by Dongarra, J. J., (ANL) schk32.f for Quick check for STRMV, STBMV, STPMV, STRSV, STBSV and by Du Croz, J. (NAG) schk33.f for Quick check for STRMM and STRSM. by Dongarra, J. J., (ANL) schk42.f for Quick check for SGER. by Du Croz, J. (NAG) schk43.f for Quick check for SSYRK. by Dongarra, J. J., (ANL) schk52.f for Quick check for SSYR and SSPR. by Du Croz, J. (NAG) schk53.f for Quick check for SSYR2K. by Dongarra, J. J., (ANL) schk62.f for Quick check for SSYR2 and SSPR2. by Du Croz, J. (NAG) schke2.f for Test the error exits from the Level 2 Blas. by Du Croz, J. J., (NAG) schke3.f for Test the error exits from the Level 3 Blas. by Dongarra, J. J., (ANL) sdasqc.f for Quick check for SLATEC routine SDASSL. gams I1A2 by PETZOLD, LINDA R., (LLNL) sdf.f for Quick check for SLATEC routines SDRIV1, SDRIV2 and SDRIV3. gams I1A2, I1A1B by Kahaner, D. K., (NIST) sdjac1.f for First Jacobian evaluator for SDASQC. by PETZOLD, LINDA R., (LLNL) sdjac2.f for Second Jacobian evaluator for SDASQC. by PETZOLD, LINDA R., (LLNL) sdqck.f for Quick check for SLATEC routines SDRIV1, SDRIV2 and SDRIV3. gams I1A2, I1A1B by Kahaner, D. K., (NIST) sdres1.f for First residual evaluator for SDASQC. by PETZOLD, LINDA R., (LLNL) sdres2.f for Second residual evaluator for SDASQC. by PETZOLD, LINDA R., (LLNL) sfnck.f for Quick check for the single precision Fullerton by Boland, W. Robert, (LANL) sgeqc.f for Quick check for SGEFS and SGEIR. by Jacobsen, Nancy, (LANL) slapqc.f for Quick check for testing Sparse Linear Algebra Package gams D2A4, D2B4 by Mark K. Seager (LLNL) smake2.f for Generate values for an M by N matrix A. by Du Croz, J. J., (NAG) smake3.f for Generate values for an M by N matrix A. by Dongarra, J. J., (ANL) smmch.f for Check the results of the computational tests. by Dongarra, J. J., (ANL) smvch.f for Check the results of the computational tests. by Du Croz, J. J., (NAG) snls1q.f for Quick check for SNLS1E, SNLS1 and SCOV. by (UNKNOWN) snsqqk.f for Quick check for SNSQE and SNSQ. by (UNKNOWN) sosfnc.f for Function evaluator for SOS quick check. by Watts, H. A., (SNLA) sosnqx.f for Quick check for SOS. by Watts, H. A., (SNLA) splpqx.f for Quick check for SPLP. by (UNKNOWN) sqck.f for Quick check for SPOFS, SPOIR, SNBFS and SNBIR. by Voorhees, E. A., (LANL) sqfcn2.f for Evaluate function used in SNSQE. by (UNKNOWN) sqjac2.f for Evaluate full Jacobian for SNSQE test. by (UNKNOWN) srmgen.f for This routine generates a "Random" symmetric or by Seager, Mark K., (LLNL) ssrtqc.f for Quick check for SLATEC routines SSORT, SPSORT, SPPERM gams N6A by BOISVERT, RONALD, (NIST) stest.f for Compare arrays SCOMP and STRUE. by Lawson, C. L., (JPL) t0.f for Subsidiary to by (UNKNOWN) t1.f for Subsidiary to by (UNKNOWN) t2.f for Subsidiary to by (UNKNOWN) t3.f for Subsidiary to by (UNKNOWN) t4.f for Subsidiary to by (UNKNOWN) t5.f for Subsidiary to by (UNKNOWN) test01.f for Driver for testing SLATEC subprogram gams Z by SLATEC Common Mathematical Library Committee test02.f for Driver for testing SLATEC subprograms gams C by SLATEC Common Mathematical Library Committee test03.f for Driver for testing SLATEC subprograms gams C by SLATEC Common Mathematical Library Committee test04.f for Driver for testing SLATEC subprograms gams C by SLATEC Common Mathematical Library Committee test05.f for Driver for testing SLATEC subprograms gams C by SLATEC Common Mathematical Library Committee test06.f for Driver for testing SLATEC subprograms gams C by SLATEC Common Mathematical Library Committee test07.f for Driver for testing SLATEC subprograms gams C by SLATEC Common Mathematical Library Committee test08.f for Driver for testing SLATEC subprograms gams C by SLATEC Common Mathematical Library Committee test09.f for Driver for testing SLATEC subprograms. gams C7A, C10A4, C10B4, C10D by SLATEC Common Mathematical Library Committee test10.f for Driver for testing SLATEC subprograms. gams C7A, C10A4, C10B4, C10D by SLATEC Common Mathematical Library Committee test11.f for Driver for testing SLATEC subprograms gams A3D, C3A2, C7C, C9 by SLATEC Common Mathematical Library Committee test12.f for Driver for testing SLATEC subprograms gams A3D, C3A2, C7C, C9 by SLATEC Common Mathematical Library Committee test13.f for Driver for testing SLATEC subprograms gams C14 by SLATEC Common Mathematical Library Committee test14.f for Driver for testing SLATEC subprograms gams C14 by SLATEC Common Mathematical Library Committee test15.f for Driver for testing SLATEC subprograms gams C19 by SLATEC Common Mathematical Library Committee test16.f for Driver for testing SLATEC subprograms gams C19 by SLATEC Common Mathematical Library Committee test17.f for Driver for testing SLATEC subprograms gams D1 by SLATEC Common Mathematical Library Committee test18.f for Driver for testing SLATEC subprograms gams D1B by SLATEC Common Mathematical Library Committee test19.f for Driver for testing SLATEC subprograms gams D1B by SLATEC Common Mathematical Library Committee test20.f for Driver for testing SLATEC subprograms gams D1B by SLATEC Common Mathematical Library Committee test21.f for Driver for testing SLATEC subprograms gams D2 by SLATEC Common Mathematical Library Committee test22.f for Driver for testing SLATEC subprograms gams D2 by SLATEC Common Mathematical Library Committee test23.f for Driver for testing SLATEC subprograms gams D2 by SLATEC Common Mathematical Library Committee test24.f for Driver for testing SLATEC subprograms gams D2 by SLATEC Common Mathematical Library Committee test25.f for Driver for testing SLATEC subprograms. gams D2A4, D2B4 by SLATEC Common Mathematical Library Committee test26.f for Driver for testing SLATEC subprograms. gams D2A4, D2B4 by SLATEC Common Mathematical Library Committee test27.f for Driver for testing SLATEC subprograms gams D5, D9 by SLATEC Common Mathematical Library Committee test28.f for Driver for testing SLATEC subprograms gams D5, D9 by SLATEC Common Mathematical Library Committee test29.f for Driver for testing SLATEC subprograms gams E1, E3 by SLATEC Common Mathematical Library Committee test30.f for Driver for testing SLATEC subprograms gams E, E1A, E3 by SLATEC Common Mathematical Library Committee test31.f for Driver for testing SLATEC subprograms gams E, E1A, E3 by SLATEC Common Mathematical Library Committee test32.f for Driver for testing SLATEC subprograms gams E1A by SLATEC Common Mathematical Library Committee test33.f for Driver for testing SLATEC subprograms gams E1A by SLATEC Common Mathematical Library Committee test34.f for Driver for testing SLATEC subprograms gams F1A by SLATEC Common Mathematical Library Committee test35.f for Driver for testing SLATEC subprograms gams F2 by SLATEC Common Mathematical Library Committee test36.f for Driver for testing SLATEC subprograms gams F2 by SLATEC Common Mathematical Library Committee test37.f for Driver for testing SLATEC subprograms gams G2 by SLATEC Common Mathematical Library Committee test38.f for Driver for testing SLATEC subprograms gams G2 by SLATEC Common Mathematical Library Committee test39.f for Driver for testing SLATEC subprograms gams H2 by SLATEC Common Mathematical Library Committee test40.f for Driver for testing SLATEC subprograms gams H2 by SLATEC Common Mathematical Library Committee test41.f for Driver for testing SLATEC subprograms gams H2 by SLATEC Common Mathematical Library Committee test42.f for Driver for testing SLATEC subprograms gams H2 by SLATEC Common Mathematical Library Committee test43.f for Driver for testing SLATEC subprograms gams I1 by SLATEC Common Mathematical Library Committee test44.f for Driver for testing SLATEC subprograms gams I1 by SLATEC Common Mathematical Library Committee test45.f for Driver for testing SLATEC subprograms gams I1A2, I1A1B by SLATEC Common Mathematical Library Committee test46.f for Driver for testing SLATEC subprograms gams I1A2, I1A1B by SLATEC Common Mathematical Library Committee test47.f for Driver for testing SLATEC subprograms gams I1A2, I1A1B by SLATEC Common Mathematical Library Committee test48.f for Driver for testing SLATEC subprograms gams I1A2 by SLATEC Common Mathematical Library Committee test49.f for Driver for testing SLATEC subprograms gams I1A2 by SLATEC Common Mathematical Library Committee test50.f for Driver for testing SLATEC subprograms gams I2 by SLATEC Common Mathematical Library Committee test51.f for Driver for testing SLATEC subprograms gams J1 by SLATEC Common Mathematical Library Committee test52.f for Driver for testing SLATEC subprograms gams K1, E3, K6, L by SLATEC Common Mathematical Library Committee test53.f for Driver for testing SLATEC subprograms gams K1, E3, K6, L by SLATEC Common Mathematical Library Committee test54.f for Driver for testing SLATEC subprograms gams N6A by BOISVERT, RONALD, (NIST) uivp.f for Dummy routine for BVSUP quick check. by Watts, H. A., (SNLA) uvec.f for Dummy routine for BVSUP quick check. by Watts, H. A., (SNLA) vfill.f for Fill a vector with a value. by Seager, Mark K., (LLNL) xcsrt.f for TO COMPUTE CHECK VALUES FOR LEGENDRE FUNCTIONS gams C3A2, C9 by SMITH, JOHN M., (NBS AND GEORGE MASON UNIVERSITY) zqcai.f for Quick check for SLATEC subroutines gams C10D by Amos, Don, (SNL) zqcbh.f for Quick check for SLATEC subroutine gams C10A4 by Amos, Don, (SNL) zqcbi.f for Quick check for SLATEC subroutine gams C10B4 by Amos, Don, (SNL) zqcbj.f for Quick check for SLATEC subroutine gams C10A4 by Amos, Don, (SNL) zqcbk.f for Quick check for SLATEC subroutine gams C10B4 by Amos, Don, (SNL) zqcby.f for Quick check for SLATEC subroutine gams C10A4 by Amos, Don, (SNL) ----------------------------------------------------------- for xersav and other error handling from old version path: /netlib/slatec/err/ ----------------------------------------------------------- .depend dependencies fdump.f for Symbolic dump (should be locally written). gams R3 by Jones, R. E., (SNLA) j4save.f for Save or recall global variables needed by error by Jones, R. E., (SNLA) xerclr.f for Reset current error number to zero. gams R3C by Jones, R. E., (SNLA) xerdmp.f for Print the error tables and then clear them. gams R3C by Jones, R. E., (SNLA) xermax.f for Set maximum number of times any error message is to be gams R3C by Jones, R. E., (SNLA) xgetf.f for Return the current value of the error control flag. gams R3C by Jones, R. E., (SNLA) xgetua.f for Return unit number(s) to which error messages are being gams R3C by Jones, R. E., (SNLA) xgetun.f for Return the (first) output file to which error messages gams R3C by Jones, R. E., (SNLA) xsetf.f for Set the error control flag. gams R3A by Jones, R. E., (SNLA) xsetua.f for Set logical unit numbers (up to 5) to which error gams R3B by Jones, R. E., (SNLA) xsetun.f for Set output file to which error messages are to be sent. gams R3B by Jones, R. E., (SNLA) ----------------------------------------------------------- for the FISHPACK, FFTPACK subset of SLATEC path: /netlib/slatec/fishfft/ ----------------------------------------------------------- .depend blktri.f for Solve a block tridiagonal system of linear equations gams I2B4B by Adams, J., (NCAR) cblktr.f for Solve a block tridiagonal system of linear equations gams I2B4B by Adams, J., (NCAR) cfftb.f for Compute the unnormalized inverse of CFFTF. gams J1A2 by Swarztrauber, P. N., (NCAR) cfftb1.f for Compute the unnormalized inverse of CFFTF1. gams J1A2 by Swarztrauber, P. N., (NCAR) cfftf.f for Compute the forward transform of a complex, periodic gams J1A2 by Swarztrauber, P. N., (NCAR) cfftf1.f for Compute the forward transform of a complex, periodic gams J1A2 by Swarztrauber, P. N., (NCAR) cffti.f for Initialize a work array for CFFTF and CFFTB. gams J1A2 by Swarztrauber, P. N., (NCAR) cffti1.f for Initialize a real and an integer work array for CFFTF1 and gams J1A2 by Swarztrauber, P. N., (NCAR) cmgnbn.f for Solve a complex block tridiagonal linear system of gams I2B4B by Adams, J., (NCAR) cosqb.f for Compute the unnormalized inverse cosine transform. gams J1A3 by Swarztrauber, P. N., (NCAR) cosqb1.f for Compute the unnormalized inverse of COSQF1. gams J1A3 by Swarztrauber, P. N., (NCAR) cosqf.f for Compute the forward cosine transform with odd wave numbers. gams J1A3 by Swarztrauber, P. N., (NCAR) cosqf1.f for Compute the forward cosine transform with odd wave numbers. gams J1A3 by Swarztrauber, P. N., (NCAR) cosqi.f for Initialize a work array for COSQF and COSQB. gams J1A3 by Swarztrauber, P. N., (NCAR) cost.f for Compute the cosine transform of a real, even sequence. gams J1A3 by Swarztrauber, P. N., (NCAR) costi.f for Initialize a work array for COST. gams J1A3 by Swarztrauber, P. N., (NCAR) ezfft1.f for EZFFTI calls EZFFT1 with appropriate work array by Swarztrauber, P. N., (NCAR) ezfftb.f for A simplified real, periodic, backward fast Fourier gams J1A1 by Swarztrauber, P. N., (NCAR) ezfftf.f for Compute a simplified real, periodic, fast Fourier forward gams J1A1 by Swarztrauber, P. N., (NCAR) ezffti.f for Initialize a work array for EZFFTF and EZFFTB. gams J1A1 by Swarztrauber, P. N., (NCAR) genbun.f for Solve by a cyclic reduction algorithm the linear system gams I2B4B by Adams, J., (NCAR) hstcrt.f for Solve the standard five-point finite difference gams I2B1A1A by Adams, J., (NCAR) hstcsp.f for Solve the standard five-point finite difference gams I2B1A1A by Adams, J., (NCAR) hstcyl.f for Solve the standard five-point finite difference gams I2B1A1A by Adams, J., (NCAR) hstplr.f for Solve the standard five-point finite difference gams I2B1A1A by Adams, J., (NCAR) hstssp.f for Solve the standard five-point finite difference gams I2B1A1A by Adams, J., (NCAR) hw3crt.f for Solve the standard seven-point finite difference gams I2B1A1A by Adams, J., (NCAR) hwscrt.f for Solves the standard five-point finite difference gams I2B1A1A by Adams, J., (NCAR) hwscsp.f for Solve a finite difference approximation to the modified gams I2B1A1A by Adams, J., (NCAR) hwscyl.f for Solve a standard finite difference approximation gams I2B1A1A by Adams, J., (NCAR) hwsplr.f for Solve a finite difference approximation to the Helmholtz gams I2B1A1A by Adams, J., (NCAR) hwsssp.f for Solve a finite difference approximation to the Helmholtz gams I2B1A1A by Adams, J., (NCAR) passb.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) passb2.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) passb3.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) passb4.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) passb5.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) passf.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) passf2.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) passf3.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) passf4.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) passf5.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) pois3d.f for Solve a three-dimensional block tridiagonal linear system gams I2B4B by Adams, J., (NCAR) poistg.f for Solve a block tridiagonal system of linear equations gams I2B4B by Adams, J., (NCAR) radb2.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) radb3.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) radb4.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) radb5.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) radbg.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) radf2.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) radf3.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) radf4.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) radf5.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) radfg.f for Calculate the fast Fourier transform of subvectors of by Swarztrauber, P. N., (NCAR) rfftb.f for Compute the backward fast Fourier transform of a real gams J1A1 by Swarztrauber, P. N., (NCAR) rfftb1.f for Compute the backward fast Fourier transform of a real gams J1A1 by Swarztrauber, P. N., (NCAR) rfftf.f for Compute the forward transform of a real, periodic sequence. gams J1A1 by Swarztrauber, P. N., (NCAR) rfftf1.f for Compute the forward transform of a real, periodic sequence. gams J1A1 by Swarztrauber, P. N., (NCAR) rffti.f for Initialize a work array for RFFTF and RFFTB. gams J1A1 by Swarztrauber, P. N., (NCAR) rffti1.f for Initialize a real and an integer work array for RFFTF1 and gams J1A1 by Swarztrauber, P. N., (NCAR) sepeli.f for Discretize and solve a second and, optionally, a fourth gams I2B1A2 by Adams, J., (NCAR) sepx4.f for Solve for either the second or fourth order finite gams I2B1A2 by Adams, J., (NCAR) sinqb.f for Compute the unnormalized inverse of SINQF. gams J1A3 by Swarztrauber, P. N., (NCAR) sinqf.f for Compute the forward sine transform with odd wave numbers. gams J1A3 by Swarztrauber, P. N., (NCAR) sinqi.f for Initialize a work array for SINQF and SINQB. gams J1A3 by Swarztrauber, P. N., (NCAR) sint.f for Compute the sine transform of a real, odd sequence. gams J1A3 by Swarztrauber, P. N., (NCAR) sinti.f for Initialize a work array for SINT. gams J1A3 by Swarztrauber, P. N., (NCAR) ----------------------------------------------------------- for the FNLIB subset of SLATEC path: /netlib/slatec/fnlib/ ----------------------------------------------------------- .depend acosh.f for Compute the arc hyperbolic cosine. gams C4C by Fullerton, W., (LANL) ai.f for Evaluate the Airy function. gams C10D by Fullerton, W., (LANL) aie.f for Calculate the Airy function for a negative argument and an gams C10D by Fullerton, W., (LANL) albeta.f for Compute the natural logarithm of the complete Beta gams C7B by Fullerton, W., (LANL) algams.f for Compute the logarithm of the absolute value of the Gamma gams C7A by Fullerton, W., (LANL) ali.f for Compute the logarithmic integral. gams C5 by Fullerton, W., (LANL) alngam.f for Compute the logarithm of the absolute value of the Gamma gams C7A by Fullerton, W., (LANL) alnrel.f for Evaluate ln(1+X) accurate in the sense of relative error. gams C4B by Fullerton, W., (LANL) asinh.f for Compute the arc hyperbolic sine. gams C4C by Fullerton, W., (LANL) atanh.f for Compute the arc hyperbolic tangent. gams C4C by Fullerton, W., (LANL) besi0.f for Compute the hyperbolic Bessel function of the first kind gams C10B1 by Fullerton, W., (LANL) besi0e.f for Compute the exponentially scaled modified (hyperbolic) gams C10B1 by Fullerton, W., (LANL) besi1.f for Compute the modified (hyperbolic) Bessel function of the gams C10B1 by Fullerton, W., (LANL) besi1e.f for Compute the exponentially scaled modified (hyperbolic) gams C10B1 by Fullerton, W., (LANL) besj0.f for Compute the Bessel function of the first kind of order gams C10A1 by Fullerton, W., (LANL) besj1.f for Compute the Bessel function of the first kind of order one. gams C10A1 by Fullerton, W., (LANL) besk0.f for Compute the modified (hyperbolic) Bessel function of the gams C10B1 by Fullerton, W., (LANL) besk0e.f for Compute the exponentially scaled modified (hyperbolic) gams C10B1 by Fullerton, W., (LANL) besk1.f for Compute the modified (hyperbolic) Bessel function of the gams C10B1 by Fullerton, W., (LANL) besk1e.f for Compute the exponentially scaled modified (hyperbolic) gams C10B1 by Fullerton, W., (LANL) beskes.f for Compute a sequence of exponentially scaled modified Bessel gams C10B3 by Fullerton, W., (LANL) besks.f for Compute a sequence of modified Bessel functions of the gams C10B3 by Fullerton, W., (LANL) besy0.f for Compute the Bessel function of the second kind of order gams C10A1 by Fullerton, W., (LANL) besy1.f for Compute the Bessel function of the second kind of order gams C10A1 by Fullerton, W., (LANL) beta.f for Compute the complete Beta function. gams C7B by Fullerton, W., (LANL) betai.f for Calculate the incomplete Beta function. gams C7F by Fullerton, W., (LANL) bi.f for Evaluate the Bairy function (the Airy function of the gams C10D by Fullerton, W., (LANL) bie.f for Calculate the Bairy function for a negative argument and an gams C10D by Fullerton, W., (LANL) binom.f for Compute the binomial coefficients. gams C1 by Fullerton, W., (LANL) c0lgmc.f for Evaluate (Z+0.5)*LOG((Z+1.)/Z) - 1.0 with relative gams C7A by Fullerton, W., (LANL) c9lgmc.f for Compute the log gamma correction factor so that gams C7A by Fullerton, W., (LANL) c9ln2r.f for Evaluate LOG(1+Z) from second order relative accuracy so gams C4B by Fullerton, W., (LANL) cacos.f for Compute the complex arc cosine. gams C4A by Fullerton, W., (LANL) cacosh.f for Compute the arc hyperbolic cosine. gams C4C by Fullerton, W., (LANL) carg.f for Compute the argument of a complex number. gams A4A by Fullerton, W., (LANL) casin.f for Compute the complex arc sine. gams C4A by Fullerton, W., (LANL) casinh.f for Compute the arc hyperbolic sine. gams C4C by Fullerton, W., (LANL) catan.f for Compute the complex arc tangent. gams C4A by Fullerton, W., (LANL) catan2.f for Compute the complex arc tangent in the proper quadrant. gams C4A by Fullerton, W., (LANL) catanh.f for Compute the arc hyperbolic tangent. gams C4C by Fullerton, W., (LANL) cbeta.f for Compute the complete Beta function. gams C7B by Fullerton, W., (LANL) cbrt.f for Compute the cube root. gams C2 by Fullerton, W., (LANL) ccbrt.f for Compute the cube root. gams C2 by Fullerton, W., (LANL) ccosh.f for Compute the complex hyperbolic cosine. gams C4C by Fullerton, W., (LANL) ccot.f for Compute the cotangent. gams C4A by Fullerton, W., (LANL) cexprl.f for Calculate the relative error exponential (EXP(X)-1)/X. gams C4B by Fullerton, W., (LANL) cgamma.f for Compute the complete Gamma function. gams C7A by Fullerton, W., (LANL) cgamr.f for Compute the reciprocal of the Gamma function. gams C7A by Fullerton, W., (LANL) chu.f for Compute the logarithmic confluent hypergeometric function. gams C11 by Fullerton, W., (LANL) clbeta.f for Compute the natural logarithm of the complete Beta gams C7B by Fullerton, W., (LANL) clngam.f for Compute the logarithm of the absolute value of the Gamma gams C7A by Fullerton, W., (LANL) clnrel.f for Evaluate ln(1+X) accurate in the sense of relative error. gams C4B by Fullerton, W., (LANL) clog10.f for Compute the principal value of the complex base 10 gams C4B by Fullerton, W., (LANL) cosdg.f for Compute the cosine of an argument in degrees. gams C4A by Fullerton, W., (LANL) cot.f for Compute the cotangent. gams C4A by Fullerton, W., (LANL) cpsi.f for Compute the Psi (or Digamma) function. gams C7C by Fullerton, W., (LANL) csevl.f for Evaluate a Chebyshev series. gams C3A2 by Fullerton, W., (LANL) csinh.f for Compute the complex hyperbolic sine. gams C4C by Fullerton, W., (LANL) ctan.f for Compute the complex tangent. gams C4A by Fullerton, W., (LANL) ctanh.f for Compute the complex hyperbolic tangent. gams C4C by Fullerton, W., (LANL) d9aimp.f for Evaluate the Airy modulus and phase. gams C10D by Fullerton, W., (LANL) d9atn1.f for Evaluate DATAN(X) from first order relative accuracy so gams C4A by Fullerton, W., (LANL) d9b0mp.f for Evaluate the modulus and phase for the J0 and Y0 Bessel gams C10A1 by Fullerton, W., (LANL) d9b1mp.f for Evaluate the modulus and phase for the J1 and Y1 Bessel gams C10A1 by Fullerton, W., (LANL) d9chu.f for Evaluate for large Z Z**A * U(A,B,Z) where U is the gams C11 by Fullerton, W., (LANL) d9gmic.f for Compute the complementary incomplete Gamma function for A gams C7E by Fullerton, W., (LANL) d9gmit.f for Compute Tricomi's incomplete Gamma function for small gams C7E by Fullerton, W., (LANL) d9knus.f for Compute Bessel functions EXP(X)*K-SUB-XNU(X) and EXP(X)* gams C10B3 by Fullerton, W., (LANL) d9lgic.f for Compute the log complementary incomplete Gamma function gams C7E by Fullerton, W., (LANL) d9lgit.f for Compute the logarithm of Tricomi's incomplete Gamma gams C7E by Fullerton, W., (LANL) d9lgmc.f for Compute the log Gamma correction factor so that gams C7E by Fullerton, W., (LANL) d9ln2r.f for Evaluate LOG(1+X) from second order relative accuracy so gams C4B by Fullerton, W., (LANL) d9pak.f for Pack a base 2 exponent into a floating point number. gams A6B by Fullerton, W., (LANL) d9upak.f for Unpack a floating point number X so that X = Y*2**N. gams A6B by Fullerton, W., (LANL) dacosh.f for Compute the arc hyperbolic cosine. gams C4C by Fullerton, W., (LANL) dai.f for Evaluate the Airy function. gams C10D by Fullerton, W., (LANL) daie.f for Calculate the Airy function for a negative argument and an gams C10D by Fullerton, W., (LANL) dasinh.f for Compute the arc hyperbolic sine. gams C4C by Fullerton, W., (LANL) datanh.f for Compute the arc hyperbolic tangent. gams C4C by Fullerton, W., (LANL) daws.f for Compute Dawson's function. gams C8C by Fullerton, W., (LANL) dbesi0.f for Compute the hyperbolic Bessel function of the first kind gams C10B1 by Fullerton, W., (LANL) dbesi1.f for Compute the modified (hyperbolic) Bessel function of the gams C10B1 by Fullerton, W., (LANL) dbesj0.f for Compute the Bessel function of the first kind of order gams C10A1 by Fullerton, W., (LANL) dbesj1.f for Compute the Bessel function of the first kind of order one. gams C10A1 by Fullerton, W., (LANL) dbesk0.f for Compute the modified (hyperbolic) Bessel function of the gams C10B1 by Fullerton, W., (LANL) dbesk1.f for Compute the modified (hyperbolic) Bessel function of the gams C10B1 by Fullerton, W., (LANL) dbesks.f for Compute a sequence of modified Bessel functions of the gams C10B3 by Fullerton, W., (LANL) dbesy0.f for Compute the Bessel function of the second kind of order gams C10A1 by Fullerton, W., (LANL) dbesy1.f for Compute the Bessel function of the second kind of order gams C10A1 by Fullerton, W., (LANL) dbeta.f for Compute the complete Beta function. gams C7B by Fullerton, W., (LANL) dbetai.f for Calculate the incomplete Beta function. gams C7F by Fullerton, W., (LANL) dbi.f for Evaluate the Bairy function (the Airy function of the gams C10D by Fullerton, W., (LANL) dbie.f for Calculate the Bairy function for a negative argument and an gams C10D by Fullerton, W., (LANL) dbinom.f for Compute the binomial coefficients. gams C1 by Fullerton, W., (LANL) dbsi0e.f for Compute the exponentially scaled modified (hyperbolic) gams C10B1 by Fullerton, W., (LANL) dbsi1e.f for Compute the exponentially scaled modified (hyperbolic) gams C10B1 by Fullerton, W., (LANL) dbsk0e.f for Compute the exponentially scaled modified (hyperbolic) gams C10B1 by Fullerton, W., (LANL) dbsk1e.f for Compute the exponentially scaled modified (hyperbolic) gams C10B1 by Fullerton, W., (LANL) dbskes.f for Compute a sequence of exponentially scaled modified Bessel gams C10B3 by Fullerton, W., (LANL) dcbrt.f for Compute the cube root. gams C2 by Fullerton, W., (LANL) dchu.f for Compute the logarithmic confluent hypergeometric function. gams C11 by Fullerton, W., (LANL) dcosdg.f for Compute the cosine of an argument in degrees. gams C4A by Fullerton, W., (LANL) dcot.f for Compute the cotangent. gams C4A by Fullerton, W., (LANL) dcsevl.f for Evaluate a Chebyshev series. gams C3A2 by Fullerton, W., (LANL) ddaws.f for Compute Dawson's function. gams C8C by Fullerton, W., (LANL) de1.f for Compute the exponential integral E1(X). gams C5 by Fullerton, W., (LANL) dei.f for Compute the exponential integral Ei(X). gams C5 by Fullerton, W., (LANL) derf.f for Compute the error function. gams C8A, L5A1E by Fullerton, W., (LANL) derfc.f for Compute the complementary error function. gams C8A, L5A1E by Fullerton, W., (LANL) dexprl.f for Calculate the relative error exponential (EXP(X)-1)/X. gams C4B by Fullerton, W., (LANL) dfac.f for Compute the factorial function. gams C1 by Fullerton, W., (LANL) dgami.f for Evaluate the incomplete Gamma function. gams C7E by Fullerton, W., (LANL) dgamic.f for Calculate the complementary incomplete Gamma function. gams C7E by Fullerton, W., (LANL) dgamit.f for Calculate Tricomi's form of the incomplete Gamma function. gams C7E by Fullerton, W., (LANL) dgamlm.f for Compute the minimum and maximum bounds for the argument in gams C7A, R2 by Fullerton, W., (LANL) dgamma.f for Compute the complete Gamma function. gams C7A by Fullerton, W., (LANL) dgamr.f for Compute the reciprocal of the Gamma function. gams C7A by Fullerton, W., (LANL) dlbeta.f for Compute the natural logarithm of the complete Beta gams C7B by Fullerton, W., (LANL) dlgams.f for Compute the logarithm of the absolute value of the Gamma gams C7A by Fullerton, W., (LANL) dli.f for Compute the logarithmic integral. gams C5 by Fullerton, W., (LANL) dlngam.f for Compute the logarithm of the absolute value of the Gamma gams C7A by Fullerton, W., (LANL) dlnrel.f for Evaluate ln(1+X) accurate in the sense of relative error. gams C4B by Fullerton, W., (LANL) dpoch.f for Evaluate a generalization of Pochhammer's symbol. gams C1, C7A by Fullerton, W., (LANL) dpoch1.f for Calculate a generalization of Pochhammer's symbol starting gams C1, C7A by Fullerton, W., (LANL) dpsi.f for Compute the Psi (or Digamma) function. gams C7C by Fullerton, W., (LANL) dsindg.f for Compute the sine of an argument in degrees. gams C4A by Fullerton, W., (LANL) dspenc.f for Compute a form of Spence's integral due to K. Mitchell. gams C5 by Fullerton, W., (LANL) e1.f for Compute the exponential integral E1(X). gams C5 by Fullerton, W., (LANL) ei.f for Compute the exponential integral Ei(X). gams C5 by Fullerton, W., (LANL) erf.f for Compute the error function. gams C8A, L5A1E by Fullerton, W., (LANL) erfc.f for Compute the complementary error function. gams C8A, L5A1E by Fullerton, W., (LANL) exprel.f for Calculate the relative error exponential (EXP(X)-1)/X. gams C4B by Fullerton, W., (LANL) fac.f for Compute the factorial function. gams C1 by Fullerton, W., (LANL) gami.f for Evaluate the incomplete Gamma function. gams C7E by Fullerton, W., (LANL) gamic.f for Calculate the complementary incomplete Gamma function. gams C7E by Fullerton, W., (LANL) gamit.f for Calculate Tricomi's form of the incomplete Gamma function. gams C7E by Fullerton, W., (LANL) gamlim.f for Compute the minimum and maximum bounds for the argument in gams C7A, R2 by Fullerton, W., (LANL) gamma.f for Compute the complete Gamma function. gams C7A by Fullerton, W., (LANL) gamr.f for Compute the reciprocal of the Gamma function. gams C7A by Fullerton, W., (LANL) initds.f for Determine the number of terms needed in an orthogonal gams C3A2 by Fullerton, W., (LANL) inits.f for Determine the number of terms needed in an orthogonal gams C3A2 by Fullerton, W., (LANL) poch.f for Evaluate a generalization of Pochhammer's symbol. gams C1, C7A by Fullerton, W., (LANL) poch1.f for Calculate a generalization of Pochhammer's symbol starting gams C1, C7A by Fullerton, W., (LANL) psi.f for Compute the Psi (or Digamma) function. gams C7C by Fullerton, W., (LANL) r9aimp.f for Evaluate the Airy modulus and phase. gams C10D by Fullerton, W., (LANL) r9atn1.f for Evaluate ATAN(X) from first order relative accuracy so that gams C4A by Fullerton, W., (LANL) r9chu.f for Evaluate for large Z Z**A * U(A,B,Z) where U is the gams C11 by Fullerton, W., (LANL) r9gmic.f for Compute the complementary incomplete Gamma function for A gams C7E by Fullerton, W., (LANL) r9gmit.f for Compute Tricomi's incomplete Gamma function for small gams C7E by Fullerton, W., (LANL) r9knus.f for Compute Bessel functions EXP(X)*K-SUB-XNU(X) and EXP(X)* gams C10B3 by Fullerton, W., (LANL) r9lgic.f for Compute the log complementary incomplete Gamma function gams C7E by Fullerton, W., (LANL) r9lgit.f for Compute the logarithm of Tricomi's incomplete Gamma gams C7E by Fullerton, W., (LANL) r9lgmc.f for Compute the log Gamma correction factor so that gams C7E by Fullerton, W., (LANL) r9ln2r.f for Evaluate LOG(1+X) from second order relative accuracy so gams C4B by Fullerton, W., (LANL) r9pak.f for Pack a base 2 exponent into a floating point number. gams A6B by Fullerton, W., (LANL) r9upak.f for Unpack a floating point number X so that X = Y*2**N. gams A6B by Fullerton, W., (LANL) rand.f for Generate a uniformly distributed random number. gams L6A21 by Fullerton, W., (LANL) rgauss.f for Generate a normally distributed (Gaussian) random number. gams L6A14 by Fullerton, W., (LANL) runif.f for Generate a uniformly distributed random number. gams L6A21 by Fullerton, W., (LANL) sindg.f for Compute the sine of an argument in degrees. gams C4A by Fullerton, W., (LANL) spenc.f for Compute a form of Spence's integral due to K. Mitchell. gams C5 by Fullerton, W., (LANL) ----------------------------------------------------------- for the BLAS, LINPACK, EISPACK, SLAP subset of path: /netlib/slatec/lin/ ----------------------------------------------------------- .depend bakvec.f for Form the eigenvectors of a certain real non-symmetric gams D4C4 by Smith, B. T., et al. balanc.f for Balance a real general matrix and isolate eigenvalues gams D4C1A by Smith, B. T., et al. balbak.f for Form the eigenvectors of a real general matrix from the gams D4C4 by Smith, B. T., et al. bandr.f for Reduce a real symmetric band matrix to symmetric gams D4C1B1 by Smith, B. T., et al. bandv.f for Form the eigenvectors of a real symmetric band matrix gams D4C3 by Smith, B. T., et al. bisect.f for Compute the eigenvalues of a symmetric tridiagonal matrix gams D4A5, D4C2A by Smith, B. T., et al. bqr.f for Compute some of the eigenvalues of a real symmetric gams D4A6 by Smith, B. T., et al. caxpy.f for Compute a constant times a vector plus a vector. gams D1A7 by Lawson, C. L., (JPL) cbabk2.f for Form the eigenvectors of a complex general matrix from the gams D4C4 by Smith, B. T., et al. cbal.f for Balance a complex general matrix and isolate eigenvalues gams D4C1A by Smith, B. T., et al. cchdc.f for Compute the Cholesky decomposition of a positive definite gams D2D1B by Dongarra, J., (ANL) cchdd.f for Downdate an augmented Cholesky decomposition or the gams D7B by Stewart, G. W., (U. of Maryland) cchex.f for Update the Cholesky factorization A=TRANS(R)*R of a gams D7B by Stewart, G. W., (U. of Maryland) cchud.f for Update an augmented Cholesky decomposition of the gams D7B by Stewart, G. W., (U. of Maryland) ccopy.f for Copy a vector. gams D1A5 by Lawson, C. L., (JPL) cdcdot.f for Compute the inner product of two vectors with extended gams D1A4 by Lawson, C. L., (JPL) cdotc.f for Dot product of two complex vectors using the complex gams D1A4 by Lawson, C. L., (JPL) cdotu.f for Compute the inner product of two vectors. gams D1A4 by Lawson, C. L., (JPL) cg.f for Compute the eigenvalues and, optionally, the eigenvectors gams D4A4 by Smith, B. T., et al. cgbco.f for Factor a band matrix by Gaussian elimination and gams D2C2 by Moler, C. B., (U. of New Mexico) cgbdi.f for Compute the determinant of a complex band matrix using the gams D3C2 by Moler, C. B., (U. of New Mexico) cgbfa.f for Factor a band matrix using Gaussian elimination. gams D2C2 by Moler, C. B., (U. of New Mexico) cgbmv.f for Multiply a complex vector by a complex general band matrix. gams D1B4 by Dongarra, J. J., (ANL) cgbsl.f for Solve the complex band system A*X=B or CTRANS(A)*X=B using gams D2C2 by Moler, C. B., (U. of New Mexico) cgeco.f for Factor a matrix using Gaussian elimination and estimate gams D2C1 by Moler, C. B., (U. of New Mexico) cgedi.f for Compute the determinant and inverse of a matrix using the gams D2C1, D3C1 by Moler, C. B., (U. of New Mexico) cgefa.f for Factor a matrix using Gaussian elimination. gams D2C1 by Moler, C. B., (U. of New Mexico) cgemm.f for Multiply a complex general matrix by a complex general gams D1B6 by Dongarra, J., (ANL) cgemv.f for Multiply a complex vector by a complex general matrix. gams D1B4 by Dongarra, J. J., (ANL) cgerc.f for Perform conjugated rank 1 update of a complex general gams D1B4 by Dongarra, J. J., (ANL) cgeru.f for Perform unconjugated rank 1 update of a complex general gams D1B4 by Dongarra, J. J., (ANL) cgesl.f for Solve the complex system A*X=B or CTRANS(A)*X=B using the gams D2C1 by Moler, C. B., (U. of New Mexico) cgtsl.f for Solve a tridiagonal linear system. gams D2C2A by Dongarra, J., (ANL) ch.f for Compute the eigenvalues and, optionally, the eigenvectors gams D4A3 by Smith, B. T., et al. chbmv.f for Multiply a complex vector by a complex Hermitian band gams D1B4 by Dongarra, J. J., (ANL) chemm.f for Multiply a complex general matrix by a complex Hermitian gams D1B6 by Dongarra, J., (ANL) chemv.f for Multiply a complex vector by a complex Hermitian matrix. gams D1B4 by Dongarra, J. J., (ANL) cher.f for Perform Hermitian rank 1 update of a complex Hermitian gams D1B4 by Dongarra, J. J., (ANL) cher2.f for Perform Hermitian rank 2 update of a complex Hermitian gams D1B4 by Dongarra, J. J., (ANL) cher2k.f for Perform Hermitian rank 2k update of a complex. gams D1B6 by Dongarra, J., (ANL) cherk.f for Perform Hermitian rank k update of a complex Hermitian gams D1B6 by Dongarra, J., (ANL) chico.f for Factor a complex Hermitian matrix by elimination with sym- gams D2D1A by Moler, C. B., (U. of New Mexico) chidi.f for Compute the determinant, inertia and inverse of a complex gams D2D1A, D3D1A by Bunch, J., (UCSD) chifa.f for Factor a complex Hermitian matrix by elimination gams D2D1A by Bunch, J., (UCSD) chisl.f for Solve the complex Hermitian system using factors obtained gams D2D1A by Bunch, J., (UCSD) chpco.f for Factor a complex Hermitian matrix stored in packed form by gams D2D1A by Moler, C. B., (U. of New Mexico) chpdi.f for Compute the determinant, inertia and inverse of a complex gams D2D1A, D3D1A by Bunch, J., (UCSD) chpfa.f for Factor a complex Hermitian matrix stored in packed form by gams D2D1A by Bunch, J., (UCSD) chpmv.f for Perform the matrix-vector operation. gams D1B4 by Dongarra, J. J., (ANL) chpr.f for Perform the hermitian rank 1 operation. gams D1B4 by Dongarra, J. J., (ANL) chpr2.f for Perform the hermitian rank 2 operation. gams D1B4 by Dongarra, J. J., (ANL) chpsl.f for Solve a complex Hermitian system using factors obtained gams D2D1A by Bunch, J., (UCSD) cinvit.f for Compute the eigenvectors of a complex upper Hessenberg gams D4C2B by Smith, B. T., et al. combak.f for Form the eigenvectors of a complex general matrix from the gams D4C4 by Smith, B. T., et al. comhes.f for Reduce a complex general matrix to complex upper Hessenberg gams D4C1B2 by Smith, B. T., et al. comlr.f for Compute the eigenvalues of a complex upper Hessenberg gams D4C2B by Smith, B. T., et al. comlr2.f for Compute the eigenvalues and eigenvectors of a complex upper gams D4C2B by Smith, B. T., et al. comqr.f for Compute the eigenvalues of complex upper Hessenberg matrix gams D4C2B by Smith, B. T., et al. comqr2.f for Compute the eigenvalues and eigenvectors of a complex upper gams D4C2B by Smith, B. T., et al. cortb.f for Form the eigenvectors of a complex general matrix from gams D4C4 by Smith, B. T., et al. corth.f for Reduce a complex general matrix to complex upper Hessenberg gams D4C1B2 by Smith, B. T., et al. cpbco.f for Factor a complex Hermitian positive definite matrix stored gams D2D2 by Moler, C. B., (U. of New Mexico) cpbdi.f for Compute the determinant of a complex Hermitian positive gams D3D2 by Moler, C. B., (U. of New Mexico) cpbfa.f for Factor a complex Hermitian positive definite matrix stored gams D2D2 by Moler, C. B., (U. of New Mexico) cpbsl.f for Solve the complex Hermitian positive definite band system gams D2D2 by Moler, C. B., (U. of New Mexico) cpoco.f for Factor a complex Hermitian positive definite matrix gams D2D1B by Moler, C. B., (U. of New Mexico) cpodi.f for Compute the determinant and inverse of a certain complex gams D2D1B, D3D1B by Moler, C. B., (U. of New Mexico) cpofa.f for Factor a complex Hermitian positive definite matrix. gams D2D1B by Moler, C. B., (U. of New Mexico) cposl.f for Solve the complex Hermitian positive definite linear system gams D2D1B by Moler, C. B., (U. of New Mexico) cppco.f for Factor a complex Hermitian positive definite matrix stored gams D2D1B by Moler, C. B., (U. of New Mexico) cppdi.f for Compute the determinant and inverse of a complex Hermitian gams D2D1B, D3D1B by Moler, C. B., (U. of New Mexico) cppfa.f for Factor a complex Hermitian positive definite matrix stored gams D2D1B by Moler, C. B., (U. of New Mexico) cppsl.f for Solve the complex Hermitian positive definite system using gams D2D1B by Moler, C. B., (U. of New Mexico) cptsl.f for Solve a positive definite tridiagonal linear system. gams D2D2A by Dongarra, J., (ANL) cqrdc.f for Use Householder transformations to compute the QR gams D5 by Stewart, G. W., (U. of Maryland) cqrsl.f for Apply the output of CQRDC to compute coordinate transfor- gams D9, D2C1 by Stewart, G. W., (U. of Maryland) crotg.f for Construct a Givens transformation. gams D1B10 by (UNKNOWN) cscal.f for Multiply a vector by a constant. gams D1A6 by Lawson, C. L., (JPL) csico.f for Factor a complex symmetric matrix by elimination with gams D2C1 by Moler, C. B., (U. of New Mexico) csidi.f for Compute the determinant and inverse of a complex symmetric gams D2C1, D3C1 by Bunch, J., (UCSD) csifa.f for Factor a complex symmetric matrix by elimination with gams D2C1 by Bunch, J., (UCSD) csisl.f for Solve a complex symmetric system using the factors obtained gams D2C1 by Bunch, J., (UCSD) cspco.f for Factor a complex symmetric matrix stored in packed form gams D2C1 by Moler, C. B., (U. of New Mexico) cspdi.f for Compute the determinant and inverse of a complex symmetric gams D2C1, D3C1 by Bunch, J., (UCSD) cspfa.f for Factor a complex symmetric matrix stored in packed form by gams D2C1 by Bunch, J., (UCSD) cspsl.f for Solve a complex symmetric system using the factors obtained gams D2C1 by Bunch, J., (UCSD) csrot.f for Apply a plane Givens rotation. gams D1B10 by Dongarra, J., (ANL) csscal.f for Scale a complex vector. gams D1A6 by Lawson, C. L., (JPL) csvdc.f for Perform the singular value decomposition of a rectangular gams D6 by Stewart, G. W., (U. of Maryland) cswap.f for Interchange two vectors. gams D1A5 by Lawson, C. L., (JPL) csymm.f for Multiply a complex general matrix by a complex symmetric gams D1B6 by Dongarra, J., (ANL) csyr2k.f for Perform symmetric rank 2k update of a complex symmetric gams D1B6 by Dongarra, J., (ANL) csyrk.f for Perform symmetric rank k update of a complex symmetric gams D1B6 by Dongarra, J., (ANL) ctbmv.f for Multiply a complex vector by a complex triangular band gams D1B4 by Dongarra, J. J., (ANL) ctbsv.f for Solve a complex triangular banded system of equations. gams D1B4 by Dongarra, J. J., (ANL) ctpmv.f for Perform one of the matrix-vector operations. gams D1B4 by Dongarra, J. J., (ANL) ctpsv.f for Solve one of the systems of equations. gams D1B4 by Dongarra, J. J., (ANL) ctrco.f for Estimate the condition number of a triangular matrix. gams D2C3 by Moler, C. B., (U. of New Mexico) ctrdi.f for Compute the determinant and inverse of a triangular matrix. gams D2C3, D3C3 by Moler, C. B., (U. of New Mexico) ctrmm.f for Multiply a complex general matrix by a complex triangular gams D1B6 by Dongarra, J., (ANL) ctrmv.f for Multiply a complex vector by a complex triangular matrix. gams D1B4 by Dongarra, J. J., (ANL) ctrsl.f for Solve a system of the form T*X=B or CTRANS(T)*X=B, where gams D2C3 by Stewart, G. W., (U. of Maryland) ctrsm.f for Solve a complex triangular system of equations with gams D1B6 by Dongarra, J., (ANL) ctrsv.f for Solve a complex triangular system of equations. gams D1B4 by Dongarra, J. J., (ANL) dasum.f for Compute the sum of the magnitudes of the elements of a gams D1A3A by Lawson, C. L., (JPL) daxpy.f for Compute a constant times a vector plus a vector. gams D1A7 by Lawson, C. L., (JPL) dbcg.f for Preconditioned BiConjugate Gradient Sparse Ax = b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dbhin.f for Read a Sparse Linear System in the Boeing/Harwell Format. gams D2A4, D2B4 by Seager, Mark K., (LLNL) dcdot.f for Compute the inner product of two vectors with extended gams D1A4 by (UNKNOWN) dcg.f for Preconditioned Conjugate Gradient Sparse Ax=b Solver. gams D2B4 by Greenbaum, Anne, (Courant Institute) dcgn.f for Preconditioned CG Sparse Ax=b Solver for Normal Equations. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dcgs.f for Preconditioned BiConjugate Gradient Squared Ax=b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dchdc.f for Compute the Cholesky decomposition of a positive definite gams D2B1B by Dongarra, J., (ANL) dchdd.f for Downdate an augmented Cholesky decomposition or the gams D7B by Stewart, G. W., (U. of Maryland) dchex.f for Update the Cholesky factorization A=TRANS(R)*R of a gams D7B by Stewart, G. W., (U. of Maryland) dchkw.f for SLAP WORK/IWORK Array Bounds Checker. gams R2 by Seager, Mark K., (LLNL) dchud.f for Update an augmented Cholesky decomposition of the gams D7B by Stewart, G. W., (U. of Maryland) dcopy.f for Copy a vector. gams D1A5 by Lawson, C. L., (JPL) dcopym.f for Copy the negative of a vector to a vector. gams D1A5 by Kahaner, D. K., (NBS) dcpplt.f for Printer Plot of SLAP Column Format Matrix. gams D2A4, D2B4 by Seager, Mark K., (LLNL) ddot.f for Compute the inner product of two vectors. gams D1A4 by Lawson, C. L., (JPL) dgbco.f for Factor a band matrix by Gaussian elimination and gams D2A2 by Moler, C. B., (U. of New Mexico) dgbdi.f for Compute the determinant of a band matrix using the factors gams D3A2 by Moler, C. B., (U. of New Mexico) dgbfa.f for Factor a band matrix using Gaussian elimination. gams D2A2 by Moler, C. B., (U. of New Mexico) dgbmv.f for Perform one of the matrix-vector operations. gams D1B4 by Dongarra, J. J., (ANL) dgbsl.f for Solve the real band system A*X=B or TRANS(A)*X=B using gams D2A2 by Moler, C. B., (U. of New Mexico) dgeco.f for Factor a matrix using Gaussian elimination and estimate gams D2A1 by Moler, C. B., (U. of New Mexico) dgedi.f for Compute the determinant and inverse of a matrix using the gams D3A1, D2A1 by Moler, C. B., (U. of New Mexico) dgefa.f for Factor a matrix using Gaussian elimination. gams D2A1 by Moler, C. B., (U. of New Mexico) dgemm.f for Perform one of the matrix-matrix operations. gams D1B6 by Dongarra, J., (ANL) dgemv.f for Perform one of the matrix-vector operations. gams D1B4 by Dongarra, J. J., (ANL) dger.f for Perform the rank 1 operation. gams D1B4 by Dongarra, J. J., (ANL) dgesl.f for Solve the real system A*X=B or TRANS(A)*X=B using the gams D2A1 by Moler, C. B., (U. of New Mexico) dgmres.f for Preconditioned GMRES iterative sparse Ax=b solver. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov dgtsl.f for Solve a tridiagonal linear system. gams D2A2A by Dongarra, J., (ANL) dhels.f for Internal routine for DGMRES. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov dheqr.f for Internal routine for DGMRES. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov dir.f for Preconditioned Iterative Refinement Sparse Ax = b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dllti2.f for SLAP Backsolve routine for LDL' Factorization. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dlpdoc.f for Sparse Linear Algebra Package Version 2.0.2 Documentation. gams D2A4, D2B4, Z by Seager, Mark. K., (LLNL) dnrm2.f for Compute the Euclidean length (L2 norm) of a vector. gams D1A3B by Lawson, C. L., (JPL) domn.f for Preconditioned Orthomin Sparse Iterative Ax=b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dorth.f for Internal routine for DGMRES. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov dpbco.f for Factor a real symmetric positive definite matrix stored in gams D2B2 by Moler, C. B., (U. of New Mexico) dpbdi.f for Compute the determinant of a symmetric positive definite gams D3B2 by Moler, C. B., (U. of New Mexico) dpbfa.f for Factor a real symmetric positive definite matrix stored in gams D2B2 by Moler, C. B., (U. of New Mexico) dpbsl.f for Solve a real symmetric positive definite band system gams D2B2 by Moler, C. B., (U. of New Mexico) dpigmr.f for Internal routine for DGMRES. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov dpoco.f for Factor a real symmetric positive definite matrix gams D2B1B by Moler, C. B., (U. of New Mexico) dpodi.f for Compute the determinant and inverse of a certain real gams D2B1B, D3B1B by Moler, C. B., (U. of New Mexico) dpofa.f for Factor a real symmetric positive definite matrix. gams D2B1B by Moler, C. B., (U. of New Mexico) dposl.f for Solve the real symmetric positive definite linear system gams D2B1B by Moler, C. B., (U. of New Mexico) dppco.f for Factor a symmetric positive definite matrix stored in gams D2B1B by Moler, C. B., (U. of New Mexico) dppdi.f for Compute the determinant and inverse of a real symmetric gams D2B1B, D3B1B by Moler, C. B., (U. of New Mexico) dppfa.f for Factor a real symmetric positive definite matrix stored in gams D2B1B by Moler, C. B., (U. of New Mexico) dppsl.f for Solve the real symmetric positive definite system using gams D2B1B by Moler, C. B., (U. of New Mexico) dptsl.f for Solve a positive definite tridiagonal linear system. gams D2B2A by Dongarra, J., (ANL) dqrdc.f for Use Householder transformations to compute the QR gams D5 by Stewart, G. W., (U. of Maryland) dqrsl.f for Apply the output of DQRDC to compute coordinate transfor- gams D9, D2A1 by Stewart, G. W., (U. of Maryland) drlcal.f for Internal routine for DGMRES. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov drot.f for Apply a plane Givens rotation. gams D1A8 by Lawson, C. L., (JPL) drotg.f for Construct a plane Givens rotation. gams D1B10 by Lawson, C. L., (JPL) drotm.f for Apply a modified Givens transformation. gams D1A8 by Lawson, C. L., (JPL) drotmg.f for Construct a modified Givens transformation. gams D1B10 by Lawson, C. L., (JPL) ds2lt.f for Lower Triangle Preconditioner SLAP Set Up. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ds2y.f for SLAP Triad to SLAP Column Format Converter. gams D2A4, D2B4 by Seager, Mark K., (LLNL) dsbmv.f for Perform the matrix-vector operation. gams D1B4 by Dongarra, J. J., (ANL) dscal.f for Multiply a vector by a constant. gams D1A6 by Lawson, C. L., (JPL) dsd2s.f for Diagonal Scaling Preconditioner SLAP Normal Eqns Set Up. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsdbcg.f for Diagonally Scaled BiConjugate Gradient Sparse Ax=b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsdcg.f for Diagonally Scaled Conjugate Gradient Sparse Ax=b Solver. gams D2B4 by Greenbaum, Anne, (Courant Institute) dsdcgn.f for Diagonally Scaled CG Sparse Ax=b Solver for Normal Eqn's. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsdcgs.f for Diagonally Scaled CGS Sparse Ax=b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsdgmr.f for Diagonally scaled GMRES iterative sparse Ax=b solver. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov dsdi.f for Diagonal Matrix Vector Multiply. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsdomn.f for Diagonally Scaled Orthomin Sparse Iterative Ax=b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsdot.f for Compute the inner product of two vectors with extended gams D1A4 by Lawson, C. L., (JPL) dsds.f for Diagonal Scaling Preconditioner SLAP Set Up. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsdscl.f for Diagonal Scaling of system Ax = b. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsgs.f for Gauss-Seidel Method Iterative Sparse Ax = b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsiccg.f for Incomplete Cholesky Conjugate Gradient Sparse Ax=b Solver. gams D2B4 by Greenbaum, Anne, (Courant Institute) dsico.f for Factor a symmetric matrix by elimination with symmetric gams D2B1A by Moler, C. B., (U. of New Mexico) dsics.f for Incompl. Cholesky Decomposition Preconditioner SLAP Set Up. gams D2B4 by Greenbaum, Anne, (Courant Institute) dsidi.f for Compute the determinant, inertia and inverse of a real gams D2B1A, D3B1A by Bunch, J., (UCSD) dsifa.f for Factor a real symmetric matrix by elimination with gams D2B1A by Bunch, J., (UCSD) dsilur.f for Incomplete LU Iterative Refinement Sparse Ax = b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsilus.f for Incomplete LU Decomposition Preconditioner SLAP Set Up. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsisl.f for Solve a real symmetric system using the factors obtained gams D2B1A by Bunch, J., (UCSD) dsjac.f for Jacobi's Method Iterative Sparse Ax = b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsli.f for SLAP MSOLVE for Lower Triangle Matrix. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsli2.f for SLAP Lower Triangle Matrix Backsolve. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsllti.f for SLAP MSOLVE for LDL' (IC) Factorization. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dslubc.f for Incomplete LU BiConjugate Gradient Sparse Ax=b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dslucn.f for Incomplete LU CG Sparse Ax=b Solver for Normal Equations. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dslucs.f for Incomplete LU BiConjugate Gradient Squared Ax=b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dslugm.f for Incomplete LU GMRES iterative sparse Ax=b solver. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov dslui.f for SLAP MSOLVE for LDU Factorization. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dslui2.f for SLAP Backsolve for LDU Factorization. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dslui4.f for SLAP Backsolve for LDU Factorization. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsluom.f for Incomplete LU Orthomin Sparse Iterative Ax=b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsluti.f for SLAP MTSOLV for LDU Factorization. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsmmi2.f for SLAP Backsolve for LDU Factorization of Normal Equations. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsmmti.f for SLAP MSOLVE for LDU Factorization of Normal Equations. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsmtv.f for SLAP Column Format Sparse Matrix Transpose Vector Product. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dsmv.f for SLAP Column Format Sparse Matrix Vector Product. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) dspco.f for Factor a real symmetric matrix stored in packed form gams D2B1A by Moler, C. B., (U. of New Mexico) dspdi.f for Compute the determinant, inertia, inverse of a real gams D2B1A, D3B1A by Bunch, J., (UCSD) dspfa.f for Factor a real symmetric matrix stored in packed form by gams D2B1A by Bunch, J., (UCSD) dspmv.f for Perform the matrix-vector operation. gams D1B4 by Dongarra, J. J., (ANL) dspr.f for Perform the symmetric rank 1 operation. gams D1B4 by Dongarra, J. J., (ANL) dspr2.f for Perform the symmetric rank 2 operation. gams D1B4 by Dongarra, J. J., (ANL) dspsl.f for Solve a real symmetric system using the factors obtained gams D2B1A by Bunch, J., (UCSD) dsvdc.f for Perform the singular value decomposition of a rectangular gams D6 by Stewart, G. W., (U. of Maryland) dswap.f for Interchange two vectors. gams D1A5 by Lawson, C. L., (JPL) dsymm.f for Perform one of the matrix-matrix operations. gams D1B6 by Dongarra, J., (ANL) dsymv.f for Perform the matrix-vector operation. gams D1B4 by Dongarra, J. J., (ANL) dsyr.f for Perform the symmetric rank 1 operation. gams D1B4 by Dongarra, J. J., (ANL) dsyr2.f for Perform the symmetric rank 2 operation. gams D1B4 by Dongarra, J. J., (ANL) dsyr2k.f for Perform one of the symmetric rank 2k operations. gams D1B6 by Dongarra, J., (ANL) dsyrk.f for Perform one of the symmetric rank k operations. gams D1B6 by Dongarra, J., (ANL) dtbmv.f for Perform one of the matrix-vector operations. gams D1B4 by Dongarra, J. J., (ANL) dtbsv.f for Solve one of the systems of equations. gams D1B4 by Dongarra, J. J., (ANL) dtin.f for Read in SLAP Triad Format Linear System. gams D2A4, D2B4 by Seager, Mark K., (LLNL) dtout.f for Write out SLAP Triad Format Linear System. gams D2A4, D2B4 by Seager, Mark K., (LLNL) dtpmv.f for Perform one of the matrix-vector operations. gams D1B4 by Dongarra, J. J., (ANL) dtpsv.f for Solve one of the systems of equations. gams D1B4 by Dongarra, J. J., (ANL) dtrco.f for Estimate the condition number of a triangular matrix. gams D2A3 by Moler, C. B., (U. of New Mexico) dtrdi.f for Compute the determinant and inverse of a triangular matrix. gams D2A3, D3A3 by Moler, C. B., (U. of New Mexico) dtrmm.f for Perform one of the matrix-matrix operations. gams D1B6 by Dongarra, J., (ANL) dtrmv.f for Perform one of the matrix-vector operations. gams D1B4 by Dongarra, J. J., (ANL) dtrsl.f for Solve a system of the form T*X=B or TRANS(T)*X=B, where gams D2A3 by Stewart, G. W., (U. of Maryland) dtrsm.f for Solve one of the matrix equations. gams D1B6 by Dongarra, J., (ANL) dtrsv.f for Solve one of the systems of equations. gams D1B4 by Dongarra, J. J., (ANL) dxlcal.f for Internal routine for DGMRES. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov eisdoc.f for Documentation for EISPACK, a collection of subprograms for gams D4, Z by Vandevender, W. H., (SNLA) elmbak.f for Form the eigenvectors of a real general matrix from the gams D4C4 by Smith, B. T., et al. elmhes.f for Reduce a real general matrix to upper Hessenberg form gams D4C1B2 by Smith, B. T., et al. eltran.f for Accumulates the stabilized elementary similarity gams D4C4 by Smith, B. T., et al. figi.f for Transforms certain real non-symmetric tridiagonal matrix gams D4C1C by Smith, B. T., et al. figi2.f for Transforms certain real non-symmetric tridiagonal matrix gams D4C1C by Smith, B. T., et al. hqr.f for Compute the eigenvalues of a real upper Hessenberg matrix gams D4C2B by Smith, B. T., et al. hqr2.f for Compute the eigenvalues and eigenvectors of a real upper gams D4C2B by Smith, B. T., et al. htrib3.f for Compute the eigenvectors of a complex Hermitian matrix from gams D4C4 by Smith, B. T., et al. htribk.f for Form the eigenvectors of a complex Hermitian matrix from gams D4C4 by Smith, B. T., et al. htrid3.f for Reduce a complex Hermitian (packed) matrix to a real gams D4C1B1 by Smith, B. T., et al. htridi.f for Reduce a complex Hermitian matrix to a real symmetric gams D4C1B1 by Smith, B. T., et al. icamax.f for Find the smallest index of the component of a complex gams D1A2 by Lawson, C. L., (JPL) icopy.f for Copy a vector. gams D1A5 by Boland, W. R., (LANL) idamax.f for Find the smallest index of that component of a vector gams D1A2 by Lawson, C. L., (JPL) imtql1.f for Compute the eigenvalues of a symmetric tridiagonal matrix gams D4A5, D4C2A by Smith, B. T., et al. imtql2.f for Compute the eigenvalues and eigenvectors of a symmetric gams D4A5, D4C2A by Smith, B. T., et al. imtqlv.f for Compute the eigenvalues of a symmetric tridiagonal matrix gams D4A5, D4C2A by Smith, B. T., et al. invit.f for Compute the eigenvectors of a real upper Hessenberg gams D4C2B by Smith, B. T., et al. isamax.f for Find the smallest index of that component of a vector gams D1A2 by Lawson, C. L., (JPL) isdbcg.f for Preconditioned BiConjugate Gradient Stop Test. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) isdcg.f for Preconditioned Conjugate Gradient Stop Test. gams D2B4 by Greenbaum, Anne, (Courant Institute) isdcgn.f for Preconditioned CG on Normal Equations Stop Test. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) isdcgs.f for Preconditioned BiConjugate Gradient Squared Stop Test. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) isdgmr.f for Generalized Minimum Residual Stop Test. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov isdir.f for Preconditioned Iterative Refinement Stop Test. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) isdomn.f for Preconditioned Orthomin Stop Test. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) issbcg.f for Preconditioned BiConjugate Gradient Stop Test. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) isscg.f for Preconditioned Conjugate Gradient Stop Test. gams D2B4 by Greenbaum, Anne, (Courant Institute) isscgn.f for Preconditioned CG on Normal Equations Stop Test. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) isscgs.f for Preconditioned BiConjugate Gradient Squared Stop Test. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) issgmr.f for Generalized Minimum Residual Stop Test. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov issir.f for Preconditioned Iterative Refinement Stop Test. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) issomn.f for Preconditioned Orthomin Stop Test. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) iswap.f for Interchange two vectors. gams D1A5 by Vandevender, W. H., (SNLA) minfit.f for Compute the singular value decomposition of a rectangular gams D9 by Smith, B. T., et al. ortbak.f for Form the eigenvectors of a general real matrix from the gams D4C4 by Smith, B. T., et al. orthes.f for Reduce a real general matrix to upper Hessenberg form gams D4C1B2 by Smith, B. T., et al. ortran.f for Accumulate orthogonal similarity transformations in the gams D4C4 by Smith, B. T., et al. qs2i1d.f for Sort an integer array, moving an integer and DP array. gams N6A2A by Jones, R. E., (SNLA) qs2i1r.f for Sort an integer array, moving an integer and real array. gams N6A2A by Jones, R. E., (SNLA) qzhes.f for The first step of the QZ algorithm for solving generalized gams D4C1B3 by Smith, B. T., et al. qzit.f for The second step of the QZ algorithm for generalized gams D4C1B3 by Smith, B. T., et al. qzval.f for The third step of the QZ algorithm for generalized gams D4C2C by Smith, B. T., et al. qzvec.f for The optional fourth step of the QZ algorithm for gams D4C3 by Smith, B. T., et al. ratqr.f for Compute the largest or smallest eigenvalues of a symmetric gams D4A5, D4C2A by Smith, B. T., et al. rebak.f for Form the eigenvectors of a generalized symmetric gams D4C4 by Smith, B. T., et al. rebakb.f for Form the eigenvectors of a generalized symmetric gams D4C4 by Smith, B. T., et al. reduc.f for Reduce a generalized symmetric eigenproblem to a standard gams D4C1C by Smith, B. T., et al. reduc2.f for Reduce a certain generalized symmetric eigenproblem to a gams D4C1C by Smith, B. T., et al. rg.f for Compute the eigenvalues and, optionally, the eigenvectors gams D4A2 by Smith, B. T., et al. rgg.f for Compute the eigenvalues and eigenvectors for a real gams D4B2 by Smith, B. T., et al. rs.f for Compute the eigenvalues and, optionally, the eigenvectors gams D4A1 by Smith, B. T., et al. rsb.f for Compute the eigenvalues and, optionally, the eigenvectors gams D4A6 by Smith, B. T., et al. rsg.f for Compute the eigenvalues and, optionally, the eigenvectors gams D4B1 by Smith, B. T., et al. rsgab.f for Compute the eigenvalues and, optionally, the eigenvectors gams D4B1 by Smith, B. T., et al. rsgba.f for Compute the eigenvalues and, optionally, the eigenvectors gams D4B1 by Smith, B. T., et al. rsp.f for Compute the eigenvalues and, optionally, the eigenvectors gams D4A1 by Smith, B. T., et al. rst.f for Compute the eigenvalues and, optionally, the eigenvectors gams D4A5 by Smith, B. T., et al. rt.f for Compute the eigenvalues and eigenvectors of a special real gams D4A5 by Smith, B. T., et al. sasum.f for Compute the sum of the magnitudes of the elements of a gams D1A3A by Lawson, C. L., (JPL) saxpy.f for Compute a constant times a vector plus a vector. gams D1A7 by Lawson, C. L., (JPL) sbcg.f for Preconditioned BiConjugate Gradient Sparse Ax = b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) sbhin.f for Read a Sparse Linear System in the Boeing/Harwell Format. gams D2A4, D2B4 by Seager, Mark K., (LLNL) scasum.f for Compute the sum of the magnitudes of the real and gams D1A3A by Lawson, C. L., (JPL) scg.f for Preconditioned Conjugate Gradient Sparse Ax=b Solver. gams D2B4 by Greenbaum, Anne, (Courant Institute) scgn.f for Preconditioned CG Sparse Ax=b Solver for Normal Equations. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) scgs.f for Preconditioned BiConjugate Gradient Squared Ax=b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) schdc.f for Compute the Cholesky decomposition of a positive definite gams D2B1B by Dongarra, J., (ANL) schdd.f for Downdate an augmented Cholesky decomposition or the gams D7B by Stewart, G. W., (U. of Maryland) schex.f for Update the Cholesky factorization A=TRANS(R)*R of A gams D7B by Stewart, G. W., (U. of Maryland) schkw.f for SLAP WORK/IWORK Array Bounds Checker. gams R2 by Seager, Mark K., (LLNL) schud.f for Update an augmented Cholesky decomposition of the gams D7B by Stewart, G. W., (U. of Maryland) scnrm2.f for Compute the unitary norm of a complex vector. gams D1A3B by Lawson, C. L., (JPL) scopy.f for Copy a vector. gams D1A5 by Lawson, C. L., (JPL) scopym.f for Copy the negative of a vector to a vector. gams D1A5 by Kahaner, D. K., (NBS) scpplt.f for Printer Plot of SLAP Column Format Matrix. gams D2A4, D2B4 by Seager, Mark K., (LLNL) sdot.f for Compute the inner product of two vectors. gams D1A4 by Lawson, C. L., (JPL) sdsdot.f for Compute the inner product of two vectors with extended gams D1A4 by Lawson, C. L., (JPL) sgbco.f for Factor a band matrix by Gaussian elimination and gams D2A2 by Moler, C. B., (U. of New Mexico) sgbdi.f for Compute the determinant of a band matrix using the factors gams D3A2 by Moler, C. B., (U. of New Mexico) sgbfa.f for Factor a band matrix using Gaussian elimination. gams D2A2 by Moler, C. B., (U. of New Mexico) sgbmv.f for Multiply a real vector by a real general band matrix. gams D1B4 by Dongarra, J. J., (ANL) sgbsl.f for Solve the real band system A*X=B or TRANS(A)*X=B using gams D2A2 by Moler, C. B., (U. of New Mexico) sgeco.f for Factor a matrix using Gaussian elimination and estimate gams D2A1 by Moler, C. B., (U. of New Mexico) sgedi.f for Compute the determinant and inverse of a matrix using the gams D2A1, D3A1 by Moler, C. B., (U. of New Mexico) sgefa.f for Factor a matrix using Gaussian elimination. gams D2A1 by Moler, C. B., (U. of New Mexico) sgemm.f for Multiply a real general matrix by a real general matrix. gams D1B6 by Dongarra, J., (ANL) sgemv.f for Multiply a real vector by a real general matrix. gams D1B4 by Dongarra, J. J., (ANL) sger.f for Perform rank 1 update of a real general matrix. gams D1B4 by Dongarra, J. J., (ANL) sgesl.f for Solve the real system A*X=B or TRANS(A)*X=B using the gams D2A1 by Moler, C. B., (U. of New Mexico) sgmres.f for Preconditioned GMRES Iterative Sparse Ax=b Solver. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov sgtsl.f for Solve a tridiagonal linear system. gams D2A2A by Dongarra, J., (ANL) shels.f for Internal routine for SGMRES. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov sheqr.f for Internal routine for SGMRES. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov sir.f for Preconditioned Iterative Refinement Sparse Ax = b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) sllti2.f for SLAP Backsolve routine for LDL' Factorization. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) slpdoc.f for Sparse Linear Algebra Package Version 2.0.2 Documentation. gams D2A4, D2B4, Z by Seager, Mark. K., (LLNL) snrm2.f for Compute the Euclidean length (L2 norm) of a vector. gams D1A3B by Lawson, C. L., (JPL) somn.f for Preconditioned Orthomin Sparse Iterative Ax=b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) sorth.f for Internal routine for SGMRES. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov spbco.f for Factor a real symmetric positive definite matrix stored in gams D2B2 by Moler, C. B., (U. of New Mexico) spbdi.f for Compute the determinant of a symmetric positive definite gams D3B2 by Moler, C. B., (U. of New Mexico) spbfa.f for Factor a real symmetric positive definite matrix stored in gams D2B2 by Moler, C. B., (U. of New Mexico) spbsl.f for Solve a real symmetric positive definite band system gams D2B2 by Moler, C. B., (U. of New Mexico) spigmr.f for Internal routine for SGMRES. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov spoco.f for Factor a real symmetric positive definite matrix gams D2B1B by Moler, C. B., (U. of New Mexico) spodi.f for Compute the determinant and inverse of a certain real gams D2B1B, D3B1B by Moler, C. B., (U. of New Mexico) spofa.f for Factor a real symmetric positive definite matrix. gams D2B1B by Moler, C. B., (U. of New Mexico) sposl.f for Solve the real symmetric positive definite linear system gams D2B1B by Moler, C. B., (U. of New Mexico) sppco.f for Factor a symmetric positive definite matrix stored in gams D2B1B by Moler, C. B., (U. of New Mexico) sppdi.f for Compute the determinant and inverse of a real symmetric gams D2B1B, D3B1B by Moler, C. B., (U. of New Mexico) sppfa.f for Factor a real symmetric positive definite matrix stored in gams D2B1B by Moler, C. B., (U. of New Mexico) sppsl.f for Solve the real symmetric positive definite system using gams D2B1B by Moler, C. B., (U. of New Mexico) sptsl.f for Solve a positive definite tridiagonal linear system. gams D2B2A by Dongarra, J., (ANL) sqrdc.f for Use Householder transformations to compute the QR gams D5 by Stewart, G. W., (U. of Maryland) sqrsl.f for Apply the output of SQRDC to compute coordinate transfor- gams D9, D2A1 by Stewart, G. W., (U. of Maryland) srlcal.f for Internal routine for SGMRES. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov srot.f for Apply a plane Givens rotation. gams D1A8 by Lawson, C. L., (JPL) srotg.f for Construct a plane Givens rotation. gams D1B10 by Lawson, C. L., (JPL) srotm.f for Apply a modified Givens transformation. gams D1A8 by Lawson, C. L., (JPL) srotmg.f for Construct a modified Givens transformation. gams D1B10 by Lawson, C. L., (JPL) ss2lt.f for Lower Triangle Preconditioner SLAP Set Up. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ss2y.f for SLAP Triad to SLAP Column Format Converter. gams D2A4, D2B4 by Seager, Mark K., (LLNL) ssbmv.f for Multiply a real vector by a real symmetric band matrix. gams D1B4 by Dongarra, J. J., (ANL) sscal.f for Multiply a vector by a constant. gams D1A6 by Lawson, C. L., (JPL) ssd2s.f for Diagonal Scaling Preconditioner SLAP Normal Eqns Set Up. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssdbcg.f for Diagonally Scaled BiConjugate Gradient Sparse Ax=b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssdcg.f for Diagonally Scaled Conjugate Gradient Sparse Ax=b Solver. gams D2B4 by Greenbaum, Anne, (Courant Institute) ssdcgn.f for Diagonally Scaled CG Sparse Ax=b Solver for Normal Eqn's. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssdcgs.f for Diagonally Scaled CGS Sparse Ax=b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssdgmr.f for Diagonally Scaled GMRES Iterative Sparse Ax=b Solver. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov ssdi.f for Diagonal Matrix Vector Multiply. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssdomn.f for Diagonally Scaled Orthomin Sparse Iterative Ax=b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssds.f for Diagonal Scaling Preconditioner SLAP Set Up. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssdscl.f for Diagonal Scaling of system Ax = b. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssgs.f for Gauss-Seidel Method Iterative Sparse Ax = b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssiccg.f for Incomplete Cholesky Conjugate Gradient Sparse Ax=b Solver. gams D2B4 by Greenbaum, Anne, (Courant Institute) ssico.f for Factor a symmetric matrix by elimination with symmetric gams D2B1A by Moler, C. B., (U. of New Mexico) ssics.f for Incompl. Cholesky Decomposition Preconditioner SLAP Set Up. gams D2B4 by Greenbaum, Anne, (Courant Institute) ssidi.f for Compute the determinant, inertia and inverse of a real gams D2B1A, D3B1A by Bunch, J., (UCSD) ssifa.f for Factor a real symmetric matrix by elimination with gams D2B1A by Bunch, J., (UCSD) ssilur.f for Incomplete LU Iterative Refinement Sparse Ax = b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssilus.f for Incomplete LU Decomposition Preconditioner SLAP Set Up. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssisl.f for Solve a real symmetric system using the factors obtained gams D2B1A by Bunch, J., (UCSD) ssjac.f for Jacobi's Method Iterative Sparse Ax = b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssli.f for SLAP MSOLVE for Lower Triangle Matrix. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssli2.f for SLAP Lower Triangle Matrix Backsolve. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssllti.f for SLAP MSOLVE for LDL' (IC) Factorization. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) sslubc.f for Incomplete LU BiConjugate Gradient Sparse Ax=b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) sslucn.f for Incomplete LU CG Sparse Ax=b Solver for Normal Equations. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) sslucs.f for Incomplete LU BiConjugate Gradient Squared Ax=b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) sslugm.f for Incomplete LU GMRES Iterative Sparse Ax=b Solver. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov sslui.f for SLAP MSOLVE for LDU Factorization. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) sslui2.f for SLAP Backsolve for LDU Factorization. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) sslui4.f for SLAP Backsolve for LDU Factorization. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssluom.f for Incomplete LU Orthomin Sparse Iterative Ax=b Solver. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssluti.f for SLAP MTSOLV for LDU Factorization. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssmmi2.f for SLAP Backsolve for LDU Factorization of Normal Equations. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssmmti.f for SLAP MSOLVE for LDU Factorization of Normal Equations. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssmtv.f for SLAP Column Format Sparse Matrix Transpose Vector Product. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) ssmv.f for SLAP Column Format Sparse Matrix Vector Product. gams D2A4, D2B4 by Greenbaum, Anne, (Courant Institute) sspco.f for Factor a real symmetric matrix stored in packed form gams D2B1A by Moler, C. B., (U. of New Mexico) sspdi.f for Compute the determinant, inertia, inverse of a real gams D2B1A, D3B1A by Bunch, J., (UCSD) sspev.f for Compute the eigenvalues and, optionally, the eigenvectors gams D4A1 by Kahaner, D. K., (NBS) sspfa.f for Factor a real symmetric matrix stored in packed form by gams D2B1A by Bunch, J., (UCSD) sspmv.f for Perform the matrix-vector operation. gams D1B4 by Dongarra, J. J., (ANL) sspr.f for Performs the symmetric rank 1 operation. gams D1B4 by Dongarra, J. J., (ANL) sspr2.f for Perform the symmetric rank 2 operation. gams D1B4 by Dongarra, J. J., (ANL) sspsl.f for Solve a real symmetric system using the factors obtained gams D2B1A by Bunch, J., (UCSD) ssvdc.f for Perform the singular value decomposition of a rectangular gams D6 by Stewart, G. W., (U. of Maryland) sswap.f for Interchange two vectors. gams D1A5 by Lawson, C. L., (JPL) ssymm.f for Multiply a real general matrix by a real symmetric matrix. gams D1B6 by Dongarra, J., (ANL) ssymv.f for Multiply a real vector by a real symmetric matrix. gams D1B4 by Dongarra, J. J., (ANL) ssyr.f for Perform symmetric rank 1 update of a real symmetric matrix. gams D1B4 by Dongarra, J. J., (ANL) ssyr2.f for Perform symmetric rank 2 update of a real symmetric matrix. gams D1B4 by Dongarra, J. J., (ANL) ssyr2k.f for Perform symmetric rank 2k update of a real symmetric matrix gams D1B6 by Dongarra, J., (ANL) ssyrk.f for Perform symmetric rank k update of a real symmetric matrix. gams D1B6 by Dongarra, J., (ANL) stbmv.f for Multiply a real vector by a real triangular band matrix. gams D1B4 by Dongarra, J. J., (ANL) stbsv.f for Solve a real triangular banded system of linear equations. gams D1B4 by Dongarra, J. J., (ANL) stin.f for Read in SLAP Triad Format Linear System. gams D2A4, D2B4 by Seager, Mark K., (LLNL) stout.f for Write out SLAP Triad Format Linear System. gams D2A4, D2B4 by Seager, Mark K., (LLNL) stpmv.f for Perform one of the matrix-vector operations. gams D1B4 by Dongarra, J. J., (ANL) stpsv.f for Solve one of the systems of equations. gams D1B4 by Dongarra, J. J., (ANL) strco.f for Estimate the condition number of a triangular matrix. gams D2A3 by Moler, C. B., (U. of New Mexico) strdi.f for Compute the determinant and inverse of a triangular matrix. gams D2A3, D3A3 by Moler, C. B., (U. of New Mexico) strmm.f for Multiply a real general matrix by a real triangular matrix. gams D1B6 by Dongarra, J., (ANL) strmv.f for Multiply a real vector by a real triangular matrix. gams D1B4 by Dongarra, J. J., (ANL) strsl.f for Solve a system of the form T*X=B or TRANS(T)*X=B, where gams D2A3 by Stewart, G. W., (U. of Maryland) strsm.f for Solve a real triangular system of equations with multiple gams D1B6 by Dongarra, J., (ANL) strsv.f for Solve a real triangular system of linear equations. gams D1B4 by Dongarra, J. J., (ANL) sxlcal.f for Internal routine for SGMRES. gams D2A4, D2B4 by Brown, Peter, (LLNL), pnbrown@llnl.gov tinvit.f for Compute the eigenvectors of symmetric tridiagonal matrix gams D4C3 by Smith, B. T., et al. tql1.f for Compute the eigenvalues of symmetric tridiagonal matrix by gams D4A5, D4C2A by Smith, B. T., et al. tql2.f for Compute the eigenvalues and eigenvectors of symmetric gams D4A5, D4C2A by Smith, B. T., et al. tqlrat.f for Compute the eigenvalues of symmetric tridiagonal matrix gams D4A5, D4C2A by Smith, B. T., et al. trbak1.f for Form the eigenvectors of real symmetric matrix from gams D4C4 by Smith, B. T., et al. trbak3.f for Form the eigenvectors of a real symmetric matrix from the gams D4C4 by Smith, B. T., et al. tred1.f for Reduce a real symmetric matrix to symmetric tridiagonal gams D4C1B1 by Smith, B. T., et al. tred2.f for Reduce a real symmetric matrix to a symmetric tridiagonal gams D4C1B1 by Smith, B. T., et al. tred3.f for Reduce a real symmetric matrix stored in packed form to gams D4C1B1 by Smith, B. T., et al. tridib.f for Compute the eigenvalues of a symmetric tridiagonal matrix gams D4A5, D4C2A by Smith, B. T., et al. tsturm.f for Find those eigenvalues of a symmetric tridiagonal matrix gams D4A5, D4C2A by Smith, B. T., et al. ----------------------------------------------------------- for piecewise cubic hermite approximation path: /netlib/slatec/pchip/ ----------------------------------------------------------- .depend chfcm.f for Check a single cubic for monotonicity. by Fritsch, F. N., (LLNL) chfdv.f for Evaluate a cubic polynomial given in Hermite form and its gams E3, H1 by Fritsch, F. N., (LLNL) chfev.f for Evaluate a cubic polynomial given in Hermite form at an gams E3 by Fritsch, F. N., (LLNL) chfie.f for Subsidiary to PCHIA by Fritsch, F. N., (LLNL) dchfcm.f for Check a single cubic for monotonicity. by Fritsch, F. N., (LLNL) dchfdv.f for Evaluate a cubic polynomial given in Hermite form and its gams E3, H1 by Fritsch, F. N., (LLNL) dchfev.f for Evaluate a cubic polynomial given in Hermite form at an gams E3 by Fritsch, F. N., (LLNL) dchfie.f for Subsidiary to DPCHIA by Fritsch, F. N., (LLNL) dpchbs.f for Piecewise Cubic Hermite to B-Spline converter. gams E3 by Fritsch, F. N., (LLNL) dpchce.f for Subsidiary to DPCHIC by Fritsch, F. N., (LLNL) dpchci.f for Subsidiary to DPCHIC by Fritsch, F. N., (LLNL) dpchcm.f for Check a cubic Hermite function for monotonicity. gams E3 by Fritsch, F. N., (LLNL) dpchcs.f for Subsidiary to DPCHIC by Fritsch, F. N., (LLNL) dpchdf.f for Subsidiary to DPCHCE and DPCHSP by Fritsch, F. N., (LLNL) dpchfd.f for Evaluate a piecewise cubic Hermite function and its first gams E3, H1 by Fritsch, F. N., (LLNL) dpchfe.f for Evaluate a piecewise cubic Hermite function at an array of gams E3 by Fritsch, F. N., (LLNL) dpchia.f for Evaluate the definite integral of a piecewise cubic gams E3, H2A1B2 by Fritsch, F. N., (LLNL) dpchic.f for Set derivatives needed to determine a piecewise monotone gams E1A by Fritsch, F. N., (LLNL) dpchid.f for Evaluate the definite integral of a piecewise cubic gams E3, H2A1B2 by Fritsch, F. N., (LLNL) dpchim.f for Set derivatives needed to determine a monotone piecewise gams E1A by Fritsch, F. N., (LLNL) dpchkt.f for Compute B-spline knot sequence for DPCHBS. gams E3 by Fritsch, F. N., (LLNL) dpchsp.f for Set derivatives needed to determine the Hermite represen- gams E1A by Fritsch, F. N., (LLNL) dpchst.f for Subsidiary to DPCHCE, DPCHCI, DPCHCS and DPCHIM by Fritsch, F. N., (LLNL) dpchsw.f for Subsidiary to DPCHCS by Fritsch, F. N., (LLNL) pchbs.f for Piecewise Cubic Hermite to B-Spline converter. gams E3 by Fritsch, F. N., (LLNL) pchce.f for Subsidiary to PCHIC by Fritsch, F. N., (LLNL) pchci.f for Subsidiary to PCHIC by Fritsch, F. N., (LLNL) pchcm.f for Check a cubic Hermite function for monotonicity. gams E3 by Fritsch, F. N., (LLNL) pchcs.f for Subsidiary to PCHIC by Fritsch, F. N., (LLNL) pchdf.f for Subsidiary to PCHCE and PCHSP by Fritsch, F. N., (LLNL) pchdoc.f for Documentation for PCHIP, a Fortran package for piecewise gams E1A, Z by Fritsch, F. N., (LLNL) pchfd.f for Evaluate a piecewise cubic Hermite function and its first gams E3, H1 by Fritsch, F. N., (LLNL) pchfe.f for Evaluate a piecewise cubic Hermite function at an array of gams E3 by Fritsch, F. N., (LLNL) pchia.f for Evaluate the definite integral of a piecewise cubic gams E3, H2A1B2 by Fritsch, F. N., (LLNL) pchic.f for Set derivatives needed to determine a piecewise monotone gams E1A by Fritsch, F. N., (LLNL) pchid.f for Evaluate the definite integral of a piecewise cubic gams E3, H2A1B2 by Fritsch, F. N., (LLNL) pchim.f for Set derivatives needed to determine a monotone piecewise gams E1A by Fritsch, F. N., (LLNL) pchkt.f for Compute B-spline knot sequence for PCHBS. gams E3 by Fritsch, F. N., (LLNL) pchsp.f for Set derivatives needed to determine the Hermite represen- gams E1A by Fritsch, F. N., (LLNL) pchst.f for Subsidiary to PCHCE, PCHCI, PCHCS and PCHIM by Fritsch, F. N., (LLNL) pchsw.f for Subsidiary to PCHCS by Fritsch, F. 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dqk15w.f dqk21.f dqk31.f dqk41.f dqk51.f dqk61.f dqmomo.f dqnc79.f dqng.f dqpsrt.f dqrdc.f dqrfac.f dqrsl.f dqrslv.f dqwgtc.f dqwgtf.f dqwgts.f drc.f drc3jj.f drc3jm.f drc6j.f drd.f dreadp.f dreort.f drf.f drj.f drkfab.f drkfs.f drlcal.f drot.f drotg.f drotm.f drotmg.f drsco.f ds2lt.f ds2y.f dsbmv.f dscal.f dsd2s.f dsdbcg.f dsdcg.f dsdcgn.f dsdcgs.f dsdgmr.f dsdi.f dsdomn.f dsdot.f dsds.f dsdscl.f dsgs.f dsiccg.f dsico.f dsics.f dsidi.f dsifa.f dsilur.f dsilus.f dsindg.f dsisl.f dsjac.f dsli.f dsli2.f dsllti.f dslubc.f dslucn.f dslucs.f dslugm.f dslui.f dslui2.f dslui4.f dsluom.f dsluti.f dslvs.f dsmmi2.f dsmmti.f dsmtv.f dsmv.f dsort.f dsos.f dsoseq.f dsossl.f dspco.f dspdi.f dspenc.f dspfa.f dsplp.f dspmv.f dspr.f dspr2.f dspsl.f dsteps.f dstod.f dstor1.f dstway.f dsuds.f dsvco.f dsvdc.f dswap.f dsymm.f dsymv.f dsyr.f dsyr2.f dsyr2k.f dsyrk.f dtbmv.f dtbsv.f dtin.f dtout.f dtpmv.f dtpsv.f dtrco.f dtrdi.f dtrmm.f dtrmv.f dtrsl.f dtrsm.f dtrsv.f du11ls.f du11us.f du12ls.f du12us.f dulsia.f dusrmt.f dvecs.f dvnrms.f dvout.f dwnlit.f dwnlsm.f dwnlt1.f dwnlt2.f dwnlt3.f dwnnls.f dwritp.f dwupdt.f dx.f dx4.f dxadd.f dxadj.f dxc210.f dxcon.f dxlcal.f dxlegf.f dxnrmp.f dxpmu.f dxpmup.f dxpnrm.f dxpqnu.f dxpsi.f dxqmu.f dxqnu.f dxred.f dxset.f dy.f dy4.f dyairy.f e1.f efc.f efcmn.f ei.f eisdoc.f elmbak.f elmhes.f eltran.f enorm.f erf.f erfc.f exbvp.f exint.f exprel.f ezfft1.f ezfftb.f ezfftf.f ezffti.f fac.f fc.f fcmn.f fdjac1.f fdjac3.f fdump.f fftdoc.f figi.f figi2.f fulmat.f fundoc.f fzero.f gami.f gamic.f gamit.f gamlim.f gamln.f gamma.f gamr.f gamrn.f gaus8.f genbun.f h12.f hfti.f hkseq.f hpperm.f hpsort.f hqr.f hqr2.f hstart.f hstcrt.f hstcs1.f hstcsp.f hstcyl.f hstplr.f hstssp.f htrib3.f htribk.f htrid3.f htridi.f hvnrm.f hw3crt.f hwscrt.f hwscs1.f hwscsp.f hwscyl.f hwsplr.f hwsss1.f hwsssp.f i1mach.f i1merg.f icamax.f icopy.f idamax.f idloc.f imtql1.f imtql2.f imtqlv.f indxa.f indxb.f indxc.f initds.f inits.f intrv.f intyd.f invit.f inxca.f inxcb.f inxcc.f iploc.f ipperm.f ipsort.f isamax.f isdbcg.f isdcg.f isdcgn.f isdcgs.f isdgmr.f isdir.f isdomn.f isort.f issbcg.f isscg.f isscgn.f isscgs.f issgmr.f issir.f issomn.f iswap.f ivout.f j4save.f jairy.f la05ad.f la05as.f la05bd.f la05bs.f la05cd.f la05cs.f la05ed.f la05es.f llsia.f lmpar.f lpdp.f lsame.f lsei.f lsi.f lsod.f lssods.f lssuds.f macon.f mc20ad.f mc20as.f mgsbv.f minfit.f minso4.f minsol.f mpadd.f mpadd2.f mpadd3.f mpblas.f mpcdm.f mpchk.f mpcmd.f mpdivi.f mperr.f mpmaxr.f mpmlp.f mpmul.f mpmul2.f mpmuli.f mpnzr.f mpovfl.f mpstr.f mpunfl.f numxer.f ohtrol.f ohtror.f ortbak.f orthes.f ortho4.f orthog.f orthol.f orthor.f ortran.f passb.f passb2.f passb3.f passb4.f passb5.f passf.f passf2.f passf3.f passf4.f passf5.f pchbs.f pchce.f pchci.f pchcm.f pchcs.f pchdf.f pchdoc.f pchfd.f pchfe.f pchia.f pchic.f pchid.f pchim.f pchkt.f pchngs.f pchsp.f pchst.f pchsw.f pcoef.f pfqad.f pgsf.f pimach.f pinitm.f pjac.f pnnzrs.f poch.f poch1.f pois3d.f poisd2.f poisn2.f poisp2.f poistg.f polcof.f polfit.f polint.f polyvl.f pos3d1.f postg2.f ppadd.f ppgq8.f ppgsf.f pppsf.f ppqad.f ppsgf.f ppspf.f ppval.f proc.f procp.f prod.f prodp.f prvec.f prwpge.f prwvir.f psgf.f psi.f psifn.f psixn.f pvalue.f pythag.f qag.f qage.f qagi.f qagie.f qagp.f qagpe.f qags.f qagse.f qawc.f qawce.f qawf.f qawfe.f qawo.f qawoe.f qaws.f qawse.f qc25c.f qc25f.f qc25s.f qcheb.f qelg.f qform.f qk15.f qk15i.f qk15w.f qk21.f qk31.f qk41.f qk51.f qk61.f qmomo.f qnc79.f qng.f qpdoc.f qpsrt.f qrfac.f qrsolv.f qs2i1d.f qs2i1r.f qwgtc.f qwgtf.f qwgts.f qzhes.f qzit.f qzval.f qzvec.f r1mach.f r1mpyq.f r1updt.f r9aimp.f r9atn1.f r9chu.f r9gmic.f r9gmit.f r9knus.f r9lgic.f r9lgit.f r9lgmc.f r9ln2r.f r9pak.f r9upak.f radb2.f radb3.f radb4.f radb5.f radbg.f radf2.f radf3.f radf4.f radf5.f radfg.f rand.f ratqr.f rc.f rc3jj.f rc3jm.f rc6j.f rd.f rebak.f rebakb.f reduc.f reduc2.f reort.f rf.f rfftb.f rfftb1.f rfftf.f rfftf1.f rffti.f rffti1.f rg.f rgauss.f rgg.f rj.f rkfab.f rpqr79.f rpzero.f rs.f rsb.f rsco.f rsg.f rsgab.f rsgba.f rsp.f rst.f rt.f runif.f rwupdt.f s1merg.f sasum.f saxpy.f sbcg.f sbhin.f sbocls.f sbols.f sbolsm.f scasum.f scg.f scgn.f scgs.f schdc.f schdd.f schex.f schkw.f schud.f sclosm.f scnrm2.f scoef.f scopy.f scopym.f scov.f scpplt.f sdaini.f sdajac.f sdanrm.f sdaslv.f sdassl.f sdastp.f sdatrp.f sdawts.f sdcor.f sdcst.f sdntl.f sdntp.f sdot.f sdpsc.f sdpst.f sdriv1.f sdriv2.f sdriv3.f sdscl.f sdsdot.f sdstp.f sdzro.f sepeli.f sepx4.f sgbco.f sgbdi.f sgbfa.f sgbmv.f sgbsl.f sgeco.f sgedi.f sgeev.f sgefa.f sgefs.f sgeir.f sgemm.f sgemv.f sger.f sgesl.f sglss.f sgmres.f sgtsl.f shels.f sheqr.f sindg.f sinqb.f sinqf.f sinqi.f sint.f sinti.f sintrp.f sir.f sllti2.f slpdoc.f slvs.f smout.f snbco.f snbdi.f snbfa.f snbfs.f snbir.f snbsl.f snls1.f snls1e.f snrm2.f snsq.f snsqe.f sods.f somn.f sopenm.f sorth.f sos.f soseqs.f sossol.f spbco.f spbdi.f spbfa.f spbsl.f speli4.f spelip.f spenc.f spigmr.f spincw.f spinit.f splp.f splpce.f splpdm.f splpfe.f splpfl.f splpmn.f splpmu.f splpup.f spoco.f spodi.f spofa.f spofs.f spoir.f spopt.f sposl.f sppco.f sppdi.f spperm.f sppfa.f sppsl.f spsort.f sptsl.f sqrdc.f sqrsl.f sreadp.f srlcal.f srot.f srotg.f srotm.f srotmg.f ss2lt.f ss2y.f ssbmv.f sscal.f ssd2s.f ssdbcg.f ssdcg.f ssdcgn.f ssdcgs.f ssdgmr.f ssdi.f ssdomn.f ssds.f ssdscl.f ssgs.f ssiccg.f ssico.f ssics.f ssidi.f ssiev.f ssifa.f ssilur.f ssilus.f ssisl.f ssjac.f ssli.f ssli2.f ssllti.f sslubc.f sslucn.f sslucs.f sslugm.f sslui.f sslui2.f sslui4.f ssluom.f ssluti.f ssmmi2.f ssmmti.f ssmtv.f ssmv.f ssort.f sspco.f sspdi.f sspev.f sspfa.f sspmv.f sspr.f sspr2.f sspsl.f ssvdc.f sswap.f ssymm.f ssymv.f ssyr.f ssyr2.f ssyr2k.f ssyrk.f stbmv.f stbsv.f steps.f stin.f stod.f stor1.f stout.f stpmv.f stpsv.f strco.f strdi.f strmm.f strmv.f strsl.f strsm.f strsv.f stway.f suds.f svco.f svd.f svecs.f svout.f swritp.f sxlcal.f tevlc.f tevls.f tinvit.f tql1.f tql2.f tqlrat.f trbak1.f trbak3.f tred1.f tred2.f tred3.f tri3.f tridib.f tridq.f tris4.f trisp.f trix.f tsturm.f u11ls.f u11us.f u12ls.f u12us.f ulsia.f usrmat.f vnwrms.f wnlit.f wnlsm.f wnlt1.f wnlt2.f wnlt3.f wnnls.f xadd.f xadj.f xc210.f xcon.f xerbla.f xerclr.f xercnt.f xerdmp.f xerhlt.f xermax.f xermsg.f xerprn.f xersve.f xgetf.f xgetua.f xgetun.f xlegf.f xnrmp.f xpmu.f xpmup.f xpnrm.f xpqnu.f xpsi.f xqmu.f xqnu.f xred.f xset.f xsetf.f xsetua.f xsetun.f yairy.f zabs.f zacai.f zacon.f zairy.f zasyi.f zbesh.f zbesi.f zbesj.f zbesk.f zbesy.f zbinu.f zbiry.f zbknu.f zbuni.f zbunk.f zdiv.f zexp.f zkscl.f zlog.f zmlri.f zmlt.f zrati.f zs1s2.f zseri.f zshch.f zsqrt.f zuchk.f zunhj.f zuni1.f zuni2.f zunik.f zunk1.f zunk2.f zuoik.f zwrsk.f ----------------------------------------------------------- for browser for any library using SLATEC prologues path: /netlib/slatec/slatecm/ ----------------------------------------------------------- COPYRIGHT README colors doc.c fetch.c gams getpk.c main.c maintxt.c omakefile rd.c sldoc.h sltc.xgen util.c xgen.tips ----------------------------------------------------------- # This library contains the main SLATEC Fortran path: /netlib/slatec/src/ ----------------------------------------------------------- .depend aaaaaa.f for SLATEC Common Mathematical Library disclaimer and version. gams Z by SLATEC Common Mathematical Library Committee asyik.f for Subsidiary to BESI and BESK by Amos, D. E., (SNLA) asyjy.f for Subsidiary to BESJ and BESY by Amos, D. E., (SNLA) avint.f for Integrate a function tabulated at arbitrarily spaced gams H2A1B2 by Jones, R. E., (SNLA) bcrh.f for Subsidiary to CBLKTR by (UNKNOWN) bdiff.f for Subsidiary to BSKIN by Amos, D. E., (SNLA) besi.f for Compute an N member sequence of I Bessel functions gams C10B3 by Amos, D. E., (SNLA) besj.f for Compute an N member sequence of J Bessel functions gams C10A3 by Amos, D. E., (SNLA) besk.f for Implement forward recursion on the three term recursion gams C10B3 by Amos, D. E., (SNLA) besknu.f for Subsidiary to BESK by Amos, D. E., (SNLA) besy.f for Implement forward recursion on the three term recursion gams C10A3 by Amos, D. E., (SNLA) besynu.f for Subsidiary to BESY by Amos, D. E., (SNLA) bfqad.f for Compute the integral of a product of a function and a gams H2A2A1, E3, K6 by Amos, D. E., (SNLA) bint4.f for Compute the B-representation of a cubic spline gams E1A by Amos, D. E., (SNLA) bintk.f for Compute the B-representation of a spline which interpolates gams E1A by Amos, D. E., (SNLA) bkias.f for Subsidiary to BSKIN by Amos, D. E., (SNLA) bkisr.f for Subsidiary to BSKIN by Amos, D. E., (SNLA) bksol.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) blktr1.f for Subsidiary to BLKTRI by (UNKNOWN) bndacc.f for Compute the LU factorization of a banded matrices using gams D9 by Lawson, C. L., (JPL) bndsol.f for Solve the least squares problem for a banded matrix using gams D9 by Lawson, C. L., (JPL) bnfac.f for Subsidiary to BINT4 and BINTK by (UNKNOWN) bnslv.f for Subsidiary to BINT4 and BINTK by (UNKNOWN) bsgq8.f for Subsidiary to BFQAD by Jones, R. E., (SNLA) bskin.f for Compute repeated integrals of the K-zero Bessel function. gams C10F by Amos, D. E., (SNLA) bspdoc.f for Documentation for BSPLINE, a package of subprograms for gams E, E1A, K, Z by Amos, D. E., (SNLA) bspdr.f for Use the B-representation to construct a divided difference gams E3 by Amos, D. E., (SNLA) bspev.f for Calculate the value of the spline and its derivatives from gams E3, K6 by Amos, D. E., (SNLA) bsplvd.f for Subsidiary to FC by (UNKNOWN) bsplvn.f for Subsidiary to FC by (UNKNOWN) bsppp.f for Convert the B-representation of a B-spline to the piecewise gams E3, K6 by Amos, D. E., (SNLA) bspvd.f for Calculate the value and all derivatives of order less than gams E3, K6 by Amos, D. E., (SNLA) bspvn.f for Calculate the value of all (possibly) nonzero basis gams E3, K6 by Amos, D. E., (SNLA) bsqad.f for Compute the integral of a K-th order B-spline using the gams H2A2A1, E3, K6 by Amos, D. E., (SNLA) bsrh.f for Subsidiary to BLKTRI by (UNKNOWN) bvalu.f for Evaluate the B-representation of a B-spline at X for the gams E3, K6 by Amos, D. E., (SNLA) bvder.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) bvpor.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) bvsup.f for Solve a linear two-point boundary value problem using gams I1B1 by Scott, M. R., (SNLA) c1merg.f for Merge two strings of complex numbers. Each string is by (UNKNOWN) cacai.f for Subsidiary to CAIRY by Amos, D. E., (SNL) cacon.f for Subsidiary to CBESH and CBESK by Amos, D. E., (SNL) cairy.f for Compute the Airy function Ai(z) or its derivative dAi/dz gams C10D by Amos, D. E., (SNL) casyi.f for Subsidiary to CBESI and CBESK by Amos, D. E., (SNL) cbesh.f for Compute a sequence of the Hankel functions H(m,a,z) gams C10A4 by Amos, D. E., (SNL) cbesi.f for Compute a sequence of the Bessel functions I(a,z) for gams C10B4 by Amos, D. E., (SNL) cbesj.f for Compute a sequence of the Bessel functions J(a,z) for gams C10A4 by Amos, D. E., (SNL) cbesk.f for Compute a sequence of the Bessel functions K(a,z) for gams C10B4 by Amos, D. E., (SNL) cbesy.f for Compute a sequence of the Bessel functions Y(a,z) for gams C10A4 by Amos, D. E., (SNL) cbinu.f for Subsidiary to CAIRY, CBESH, CBESI, CBESJ, CBESK and CBIRY by Amos, D. E., (SNL) cbiry.f for Compute the Airy function Bi(z) or its derivative dBi/dz gams C10D by Amos, D. E., (SNL) cbknu.f for Subsidiary to CAIRY, CBESH, CBESI and CBESK by Amos, D. E., (SNL) cblkt1.f for Subsidiary to CBLKTR by (UNKNOWN) cbuni.f for Subsidiary to CBESI and CBESK by Amos, D. E., (SNL) cbunk.f for Subsidiary to CBESH and CBESK by Amos, D. E., (SNL) ccmpb.f for Subsidiary to CBLKTR by (UNKNOWN) cdcor.f for Subroutine CDCOR computes corrections to the Y array. by Kahaner, D. K., (NIST) cdcst.f for CDCST sets coefficients used by the core integrator CDSTP. by Kahaner, D. K., (NIST) cdiv.f for Compute the complex quotient of two complex numbers. by (UNKNOWN) cdntl.f for Subroutine CDNTL is called to set parameters on the first by Kahaner, D. K., (NIST) cdntp.f for Subroutine CDNTP interpolates the K-th derivative of Y at by Kahaner, D. K., (NIST) cdpsc.f for Subroutine CDPSC computes the predicted YH values by by Kahaner, D. K., (NIST) cdpst.f for Subroutine CDPST evaluates the Jacobian matrix of the right by Kahaner, D. K., (NIST) cdriv1.f for The function of CDRIV1 is to solve N (200 or fewer) gams I1A2, I1A1B by Kahaner, D. K., (NIST) cdriv2.f for The function of CDRIV2 is to solve N ordinary differential gams I1A2, I1A1B by Kahaner, D. K., (NIST) cdriv3.f for The function of CDRIV3 is to solve N ordinary differential gams I1A2, I1A1B by Kahaner, D. K., (NIST) cdscl.f for Subroutine CDSCL rescales the YH array whenever the step by Kahaner, D. K., (NIST) cdstp.f for CDSTP performs one step of the integration of an initial by Kahaner, D. K., (NIST) cdzro.f for CDZRO searches for a zero of a function F(N, T, Y, IROOT) by Kahaner, D. K., (NIST) cfod.f for Subsidiary to DEBDF by (UNKNOWN) cgeev.f for Compute the eigenvalues and, optionally, the eigenvectors gams D4A4 by Kahaner, D. K., (NBS) cgefs.f for Solve a general system of linear equations. gams D2C1 by Voorhees, E. A., (LANL) cgeir.f for Solve a general system of linear equations. Iterative gams D2C1 by Voorhees, E. A., (LANL) chiev.f for Compute the eigenvalues and, optionally, the eigenvectors gams D4A3 by Kahaner, D. K., (NBS) chkder.f for Check the gradients of M nonlinear functions in N gams F3, G4C by Hiebert, K. L. (SNLA) chkpr4.f for Subsidiary to SEPX4 by (UNKNOWN) chkprm.f for Subsidiary to SEPELI by (UNKNOWN) chksn4.f for Subsidiary to SEPX4 by (UNKNOWN) chksng.f for Subsidiary to SEPELI by (UNKNOWN) ckscl.f for Subsidiary to CBKNU, CUNK1 and CUNK2 by Amos, D. E., (SNL) cmlri.f for Subsidiary to CBESI and CBESK by Amos, D. E., (SNL) cmpcsg.f for Subsidiary to CMGNBN by (UNKNOWN) cmposd.f for Subsidiary to CMGNBN by (UNKNOWN) cmposn.f for Subsidiary to CMGNBN by (UNKNOWN) cmposp.f for Subsidiary to CMGNBN by (UNKNOWN) cmptr3.f for Subsidiary to CMGNBN by (UNKNOWN) cmptrx.f for Subsidiary to CMGNBN by (UNKNOWN) cnbco.f for Factor a band matrix using Gaussian elimination and gams D2C2 by Voorhees, E. A., (LANL) cnbdi.f for Compute the determinant of a band matrix using the factors gams D3C2 by Voorhees, E. A., (LANL) cnbfa.f for Factor a band matrix by elimination. gams D2C2 by Voorhees, E. A., (LANL) cnbfs.f for Solve a general nonsymmetric banded system of linear gams D2C2 by Voorhees, E. A., (LANL) cnbir.f for Solve a general nonsymmetric banded system of linear gams D2C2 by Voorhees, E. A., (LANL) cnbsl.f for Solve a complex band system using the factors computed by gams D2C2 by Voorhees, E. A., (LANL) compb.f for Subsidiary to BLKTRI by (UNKNOWN) cosgen.f for Subsidiary to GENBUN by (UNKNOWN) cpadd.f for Subsidiary to CBLKTR by (UNKNOWN) cpevl.f for Subsidiary to CPZERO by (UNKNOWN) cpevlr.f for Subsidiary to CPZERO by (UNKNOWN) cpofs.f for Solve a positive definite symmetric complex system of gams D2D1B by Voorhees, E. A., (LANL) cpoir.f for Solve a positive definite Hermitian system of linear gams D2D1B by Voorhees, E. A., (LANL) cpqr79.f for Find the zeros of a polynomial with complex coefficients. gams F1A1B by Vandevender, W. H., (SNLA) cproc.f for Subsidiary to CBLKTR by (UNKNOWN) cprocp.f for Subsidiary to CBLKTR by (UNKNOWN) cprod.f for Subsidiary to BLKTRI by (UNKNOWN) cprodp.f for Subsidiary to BLKTRI by (UNKNOWN) cpzero.f for Find the zeros of a polynomial with complex coefficients. gams F1A1B by Kahaner, D. K., (NBS) crati.f for Subsidiary to CBESH, CBESI and CBESK by Amos, D. E., (SNL) cs1s2.f for Subsidiary to CAIRY and CBESK by Amos, D. E., (SNL) cscale.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) cseri.f for Subsidiary to CBESI and CBESK by Amos, D. E., (SNL) cshch.f for Subsidiary to CBESH and CBESK by Amos, D. E., (SNL) csroot.f for Compute the complex square root of a complex number. by (UNKNOWN) cuchk.f for Subsidiary to SERI, CUOIK, CUNK1, CUNK2, CUNI1, CUNI2 and by Amos, D. E., (SNL) cunhj.f for Subsidiary to CBESI and CBESK by Amos, D. E., (SNL) cuni1.f for Subsidiary to CBESI and CBESK by Amos, D. E., (SNL) cuni2.f for Subsidiary to CBESI and CBESK by Amos, D. E., (SNL) cunik.f for Subsidiary to CBESI and CBESK by Amos, D. E., (SNL) cunk1.f for Subsidiary to CBESK by Amos, D. E., (SNL) cunk2.f for Subsidiary to CBESK by Amos, D. E., (SNL) cuoik.f for Subsidiary to CBESH, CBESI and CBESK by Amos, D. E., (SNL) cv.f for Evaluate the variance function of the curve obtained gams L7A3 by Hanson, R. J., (SNLA) cwrsk.f for Subsidiary to CBESI and CBESK by Amos, D. E., (SNL) d1mach.f for Return floating point machine dependent constants. gams R1 by Fox, P. A., (Bell Labs) d1merg.f for Merge two strings of ascending double precision numbers. by Boland, W. Robert, (LANL) d1mpyq.f for Subsidiary to DNSQ and DNSQE by (UNKNOWN) d1updt.f for Subsidiary to DNSQ and DNSQE by (UNKNOWN) dasyik.f for Subsidiary to DBESI and DBESK by Amos, D. E., (SNLA) dasyjy.f for Subsidiary to DBESJ and DBESY by Amos, D. E., (SNLA) davint.f for Integrate a function tabulated at arbitrarily spaced gams H2A1B2 by Jones, R. E., (SNLA) dbdiff.f for Subsidiary to DBSKIN by Amos, D. E., (SNLA) dbesi.f for Compute an N member sequence of I Bessel functions gams C10B3 by Amos, D. E., (SNLA) dbesj.f for Compute an N member sequence of J Bessel functions gams C10A3 by Amos, D. E., (SNLA) dbesk.f for Implement forward recursion on the three term recursion gams C10B3 by Amos, D. E., (SNLA) dbesy.f for Implement forward recursion on the three term recursion gams C10A3 by Amos, D. E., (SNLA) dbfqad.f for Compute the integral of a product of a function and a gams H2A2A1, E3, K6 by Amos, D. E., (SNLA) dbint4.f for Compute the B-representation of a cubic spline gams E1A by Amos, D. E., (SNLA) dbintk.f for Compute the B-representation of a spline which interpolates gams E1A by Amos, D. E., (SNLA) dbkias.f for Subsidiary to DBSKIN by Amos, D. E., (SNLA) dbkisr.f for Subsidiary to DBSKIN by Amos, D. E., (SNLA) dbksol.f for Subsidiary to DBVSUP by Watts, H. A., (SNLA) dbndac.f for Compute the LU factorization of a banded matrices using gams D9 by Lawson, C. L., (JPL) dbndsl.f for Solve the least squares problem for a banded matrix using gams D9 by Lawson, C. L., (JPL) dbnfac.f for Subsidiary to DBINT4 and DBINTK by (UNKNOWN) dbnslv.f for Subsidiary to DBINT4 and DBINTK by (UNKNOWN) dbocls.f for Solve the bounded and constrained least squares gams K1A2A, G2E, G2H1, G2H2 by Hanson, R. J., (SNLA) dbols.f for Solve the problem gams K1A2A, G2E, G2H1, G2H2 by Hanson, R. J., (SNLA) dbolsm.f for Subsidiary to SBOCLS and SBOLS by (UNKNOWN) dbsgq8.f for Subsidiary to DBFQAD by Jones, R. E., (SNLA) dbskin.f for Compute repeated integrals of the K-zero Bessel function. gams C10F by Amos, D. E., (SNLA) dbsknu.f for Subsidiary to DBESK by Amos, D. E., (SNLA) dbspdr.f for Use the B-representation to construct a divided difference gams E3, K6 by Amos, D. E., (SNLA) dbspev.f for Calculate the value of the spline and its derivatives from gams E3, K6 by Amos, D. E., (SNLA) dbsppp.f for Convert the B-representation of a B-spline to the piecewise gams E3, K6 by Amos, D. E., (SNLA) dbspvd.f for Calculate the value and all derivatives of order less than gams E3, K6 by Amos, D. E., (SNLA) dbspvn.f for Calculate the value of all (possibly) nonzero basis gams E3, K6 by Amos, D. E., (SNLA) dbsqad.f for Compute the integral of a K-th order B-spline using the gams H2A2A1, E3, K6 by Amos, D. E., (SNLA) dbsynu.f for Subsidiary to DBESY by Amos, D. E., (SNLA) dbvalu.f for Evaluate the B-representation of a B-spline at X for the gams E3, K6 by Amos, D. E., (SNLA) dbvder.f for Subsidiary to DBVSUP by Watts, H. A., (SNLA) dbvpor.f for Subsidiary to DBVSUP by Watts, H. A., (SNLA) dbvsup.f for Solve a linear two-point boundary value problem using gams I1B1 by Scott, M. R., (SNLA) dcfod.f for Subsidiary to DDEBDF by (UNKNOWN) dckder.f for Check the gradients of M nonlinear functions in N gams F3, G4C by Hiebert, K. L. (SNLA) dcoef.f for Subsidiary to DBVSUP by Watts, H. A., (SNLA) dcov.f for Calculate the covariance matrix for a nonlinear data gams K1B1 by Hiebert, K. L., (SNLA) dcscal.f for Subsidiary to DBVSUP and DSUDS by Watts, H. A., (SNLA) dcv.f for Evaluate the variance function of the curve obtained gams L7A3 by Hanson, R. J., (SNLA) ddaini.f for Initialization routine for DDASSL. by PETZOLD, LINDA R., (LLNL) ddajac.f for Compute the iteration matrix for DDASSL and form the by PETZOLD, LINDA R., (LLNL) ddanrm.f for Compute vector norm for DDASSL. by PETZOLD, LINDA R., (LLNL) ddaslv.f for Linear system solver for DDASSL. by PETZOLD, LINDA R., (LLNL) ddassl.f for This code solves a system of differential/algebraic gams I1A2 by PETZOLD, LINDA R., (LLNL) ddastp.f for Perform one step of the DDASSL integration. by PETZOLD, LINDA R., (LLNL) ddatrp.f for Interpolation routine for DDASSL. by PETZOLD, LINDA R., (LLNL) ddawts.f for Set error weight vector for DDASSL. by PETZOLD, LINDA R., (LLNL) ddcor.f for Subroutine DDCOR computes corrections to the Y array. by Kahaner, D. K., (NIST) ddcst.f for DDCST sets coefficients used by the core integrator DDSTP. by Kahaner, D. K., (NIST) ddeabm.f for Solve an initial value problem in ordinary differential gams I1A1B by Shampine, L. F., (SNLA) ddebdf.f for Solve an initial value problem in ordinary differential gams I1A2 by Shampine, L. F., (SNLA) dderkf.f for Solve an initial value problem in ordinary differential gams I1A1A by Watts, H. A., (SNLA) ddes.f for Subsidiary to DDEABM by Watts, H. A., (SNLA) ddntl.f for Subroutine DDNTL is called to set parameters on the first by Kahaner, D. K., (NIST) ddntp.f for Subroutine DDNTP interpolates the K-th derivative of Y at by Kahaner, D. K., (NIST) ddoglg.f for Subsidiary to DNSQ and DNSQE by (UNKNOWN) ddpsc.f for Subroutine DDPSC computes the predicted YH values by by Kahaner, D. K., (NIST) ddpst.f for Subroutine DDPST evaluates the Jacobian matrix of the right by Kahaner, D. K., (NIST) ddriv1.f for The function of DDRIV1 is to solve N (200 or fewer) gams I1A2, I1A1B by Kahaner, D. K., (NIST) ddriv2.f for The function of DDRIV2 is to solve N ordinary differential gams I1A2, I1A1B by Kahaner, D. K., (NIST) ddriv3.f for The function of DDRIV3 is to solve N ordinary differential gams I1A2, I1A1B by Kahaner, D. K., (NIST) ddscl.f for Subroutine DDSCL rescales the YH array whenever the step by Kahaner, D. K., (NIST) ddstp.f for DDSTP performs one step of the integration of an initial by Kahaner, D. K., (NIST) ddzro.f for DDZRO searches for a zero of a function F(N, T, Y, IROOT) by Kahaner, D. K., (NIST) deabm.f for Solve an initial value problem in ordinary differential gams I1A1B by Shampine, L. F., (SNLA) debdf.f for Solve an initial value problem in ordinary differential gams I1A2 by Shampine, L. F., (SNLA) defc.f for Fit a piecewise polynomial curve to discrete data. gams K1A1A1, K1A2A, L8A3 by Hanson, R. J., (SNLA) defcmn.f for Subsidiary to DEFC by Hanson, R. J., (SNLA) defe4.f for Subsidiary to SEPX4 by (UNKNOWN) defehl.f for Subsidiary to DERKF by Watts, H. A., (SNLA) defer.f for Subsidiary to SEPELI by (UNKNOWN) denorm.f for Subsidiary to DNSQ and DNSQE by (UNKNOWN) derkf.f for Solve an initial value problem in ordinary differential gams I1A1A by Watts, H. A., (SNLA) derkfs.f for Subsidiary to DERKF by Watts, H. A., (SNLA) des.f for Subsidiary to DEABM by Watts, H. A., (SNLA) dexbvp.f for Subsidiary to DBVSUP by Watts, H. A., (SNLA) dexint.f for Compute an M member sequence of exponential integrals gams C5 by Amos, D. E., (SNLA) dfc.f for Fit a piecewise polynomial curve to discrete data. gams K1A1A1, K1A2A, L8A3 by Hanson, R. J., (SNLA) dfcmn.f for Subsidiary to FC by (UNKNOWN) dfdjc1.f for Subsidiary to DNSQ and DNSQE by (UNKNOWN) dfdjc3.f for Subsidiary to DNLS1 and DNLS1E by (UNKNOWN) dfehl.f for Subsidiary to DDERKF by Watts, H. A., (SNLA) dfspvd.f for Subsidiary to DFC by (UNKNOWN) dfspvn.f for Subsidiary to DFC by (UNKNOWN) dfulmt.f for Subsidiary to DSPLP by (UNKNOWN) dfzero.f for Search for a zero of a function F(X) in a given interval gams F1B by Shampine, L. F., (SNLA) dgamln.f for Compute the logarithm of the Gamma function gams C7A by Amos, D. E., (SNL) dgamrn.f for Subsidiary to DBSKIN by Amos, D. E., (SNLA) dgaus8.f for Integrate a real function of one variable over a finite gams H2A1A1 by Jones, R. E., (SNLA) dgefs.f for Solve a general system of linear equations. gams D2A1 by Voorhees, E. A., (LANL) dglss.f for Solve a linear least squares problems by performing a QR gams D9, D5 by Manteuffel, T. A., (LANL) dh12.f for Subsidiary to DHFTI, DLSEI and DWNNLS by (UNKNOWN) dhfti.f for Solve a least squares problem for banded matrices using gams D9 by Lawson, C. L., (JPL) dhkseq.f for Subsidiary to DBSKIN by Amos, D. E., (SNLA) dhstrt.f for Subsidiary to DDEABM, DDEBDF and DDERKF by Watts, H. A., (SNLA) dhvnrm.f for Subsidiary to DDEABM, DDEBDF and DDERKF by Watts, H. A., (SNLA) dintp.f for Approximate the solution at XOUT by evaluating the gams I1A1B by Watts, H. A., (SNLA) dintrv.f for Compute the largest integer ILEFT in 1 .LE. ILEFT .LE. LXT gams E3, K6 by Amos, D. E., (SNLA) dintyd.f for Subsidiary to DDEBDF by Watts, H. A., (SNLA) djairy.f for Subsidiary to DBESJ and DBESY by Amos, D. E., (SNLA) dllsia.f for Solve linear least squares problems by performing a QR gams D9, D5 by Manteuffel, T. A., (LANL) dlpdp.f for Subsidiary to DLSEI by Hanson, R. J., (SNLA) dlsei.f for Solve a linearly constrained least squares problem with gams K1A2A, D9 by Hanson, R. J., (SNLA) dlsi.f for Subsidiary to DLSEI by Hanson, R. J., (SNLA) dlsod.f for Subsidiary to DDEBDF by (UNKNOWN) dlssud.f for Subsidiary to DBVSUP and DSUDS by Watts, H. A., (SNLA) dmacon.f for Subsidiary to DBVSUP by (UNKNOWN) dmgsbv.f for Subsidiary to DBVSUP by Watts, H. A., (SNLA) dmout.f for Subsidiary to DBOCLS and DFC by Hanson, R. J., (SNLA) dmpar.f for Subsidiary to DNLS1 and DNLS1E by (UNKNOWN) dnbco.f for Factor a band matrix using Gaussian elimination and gams D2A2 by Voorhees, E. A., (LANL) dnbdi.f for Compute the determinant of a band matrix using the factors gams D3A2 by Voorhees, E. A., (LANL) dnbfa.f for Factor a band matrix by elimination. gams D2A2 by Voorhees, E. A., (LANL) dnbfs.f for Solve a general nonsymmetric banded system of linear gams D2A2 by Voorhees, E. A., (LANL) dnbsl.f for Solve a real band system using the factors computed by gams D2A2 by Voorhees, E. A., (LANL) dnls1.f for Minimize the sum of the squares of M nonlinear functions gams K1B1A1, K1B1A2 by Hiebert, K. L., (SNLA) dnls1e.f for An easy-to-use code which minimizes the sum of the squares gams K1B1A1, K1B1A2 by Hiebert, K. L., (SNLA) dnsq.f for Find a zero of a system of a N nonlinear functions in N gams F2A by Hiebert, K. L. (SNLA) dnsqe.f for An easy-to-use code to find a zero of a system of N gams F2A by Hiebert, K. L. (SNLA) dogleg.f for Subsidiary to SNSQ and SNSQE by (UNKNOWN) dohtrl.f for Subsidiary to DBVSUP and DSUDS by Watts, H. A., (SNLA) dorthr.f for Subsidiary to DBVSUP and DSUDS by Watts, H. A., (SNLA) dp1vlu.f for Use the coefficients generated by DPOLFT to evaluate the gams K6 by Shampine, L. F., (SNLA) dpchng.f for Subsidiary to DSPLP by Hanson, R. J., (SNLA) dpcoef.f for Convert the DPOLFT coefficients to Taylor series form. gams K1A1A2 by Shampine, L. F., (SNLA) dpfqad.f for Compute the integral on (X1,X2) of a product of a gams H2A2A1, E3, K6 by Amos, D. E., (SNLA) dpincw.f for Subsidiary to DSPLP by (UNKNOWN) dpinit.f for Subsidiary to DSPLP by (UNKNOWN) dpintm.f for Subsidiary to DSPLP by Hanson, R. J., (SNLA) dpjac.f for Subsidiary to DDEBDF by Watts, H. A., (SNLA) dplint.f for Produce the polynomial which interpolates a set of discrete gams E1B by Huddleston, R. E., (SNLL) dplpce.f for Subsidiary to DSPLP by (UNKNOWN) dplpdm.f for Subsidiary to DSPLP by (UNKNOWN) dplpfe.f for Subsidiary to DSPLP by (UNKNOWN) dplpfl.f for Subsidiary to DSPLP by (UNKNOWN) dplpmn.f for Subsidiary to DSPLP by (UNKNOWN) dplpmu.f for Subsidiary to DSPLP by (UNKNOWN) dplpup.f for Subsidiary to DSPLP by (UNKNOWN) dpnnzr.f for Subsidiary to DSPLP by Hanson, R. J., (SNLA) dpofs.f for Solve a positive definite symmetric system of linear gams D2B1B by Voorhees, E. A., (LANL) dpolcf.f for Compute the coefficients of the polynomial fit (including gams E1B by Huddleston, R. E., (SNLL) dpolft.f for Fit discrete data in a least squares sense by polynomials gams K1A1A2 by Shampine, L. F., (SNLA) dpolvl.f for Calculate the value of a polynomial and its first NDER gams E3 by Huddleston, R. E., (SNLL) dpopt.f for Subsidiary to DSPLP by (UNKNOWN) dpperm.f for Rearrange a given array according to a prescribed gams N8 by McClain, M. A., (NIST) dppgq8.f for Subsidiary to DPFQAD by Jones, R. E., (SNLA) dppqad.f for Compute the integral on (X1,X2) of a K-th order B-spline gams H2A2A1, E3, K6 by Amos, D. E., (SNLA) dppval.f for Calculate the value of the IDERIV-th derivative of the gams E3, K6 by Amos, D. E., (SNLA) dprvec.f for Subsidiary to DBVSUP by Watts, H. A., (SNLA) dprwpg.f for Subsidiary to DSPLP by Hanson, R. J., (SNLA) dprwvr.f for Subsidiary to DSPLP by Hanson, R. J., (SNLA) dpsifn.f for Compute derivatives of the Psi function. gams C7C by Amos, D. E., (SNLA) dpsixn.f for Subsidiary to DEXINT by Amos, D. E., (SNLA) dpsort.f for Return the permutation vector generated by sorting a given gams N6A1B, N6A2B by Jones, R. E., (SNLA) dqag.f for The routine calculates an approximation result to a given gams H2A1A1 by Piessens, Robert dqage.f for The routine calculates an approximation result to a given gams H2A1A1 by Piessens, Robert dqagi.f for The routine calculates an approximation result to a given gams H2A3A1, H2A4A1 by Piessens, Robert dqagie.f for The routine calculates an approximation result to a given gams H2A3A1, H2A4A1 by Piessens, Robert dqagp.f for The routine calculates an approximation result to a given gams H2A2A1 by Piessens, Robert dqagpe.f for Approximate a given definite integral I = Integral of F gams H2A2A1 by Piessens, Robert dqags.f for The routine calculates an approximation result to a given gams H2A1A1 by Piessens, Robert dqagse.f for The routine calculates an approximation result to a given gams H2A1A1 by Piessens, Robert dqawc.f for The routine calculates an approximation result to a gams H2A2A1, J4 by Piessens, Robert dqawce.f for The routine calculates an approximation result to a gams H2A2A1, J4 by Piessens, Robert dqawf.f for The routine calculates an approximation result to a given gams H2A3A1 by Piessens, Robert dqawfe.f for The routine calculates an approximation result to a gams H2A3A1 by Piessens, Robert dqawo.f for Calculate an approximation to a given definite integral gams H2A2A1 by Piessens, Robert dqawoe.f for Calculate an approximation to a given definite integral gams H2A2A1 by Piessens, Robert dqaws.f for The routine calculates an approximation result to a given gams H2A2A1 by Piessens, Robert dqawse.f for The routine calculates an approximation result to a given gams H2A2A1 by Piessens, Robert dqc25c.f for To compute I = Integral of F*W over (A,B) with gams H2A2A2, J4 by Piessens, Robert dqc25f.f for To compute the integral I=Integral of F(X) over (A,B) gams H2A2A2 by Piessens, Robert dqc25s.f for To compute I = Integral of F*W over (BL,BR), with error gams H2A2A2 by Piessens, Robert dqcheb.f for This routine computes the CHEBYSHEV series expansion by Piessens, Robert dqdota.f for Compute the inner product of two vectors with extended gams D1A4 by Lawson, C. L., (JPL) dqdoti.f for Compute the inner product of two vectors with extended gams D1A4 by Lawson, C. L., (JPL) dqelg.f for The routine determines the limit of a given sequence of by Piessens, Robert dqform.f for Subsidiary to DNSQ and DNSQE by (UNKNOWN) dqk15.f for To compute I = Integral of F over (A,B), with error gams H2A1A2 by Piessens, Robert dqk15i.f for The original (infinite integration range is mapped gams H2A3A2, H2A4A2 by Piessens, Robert dqk15w.f for To compute I = Integral of F*W over (A,B), with error gams H2A2A2 by Piessens, Robert dqk21.f for To compute I = Integral of F over (A,B), with error gams H2A1A2 by Piessens, Robert dqk31.f for To compute I = Integral of F over (A,B) with error gams H2A1A2 by Piessens, Robert dqk41.f for To compute I = Integral of F over (A,B), with error gams H2A1A2 by Piessens, Robert dqk51.f for To compute I = Integral of F over (A,B) with error gams H2A1A2 by Piessens, Robert dqk61.f for To compute I = Integral of F over (A,B) with error gams H2A1A2 by Piessens, Robert dqmomo.f for This routine computes modified Chebyshev moments. The K-th gams H2A2A1, C3A2 by Piessens, Robert dqnc79.f for Integrate a function using a 7-point adaptive Newton-Cotes gams H2A1A1 by Kahaner, D. K., (NBS) dqng.f for The routine calculates an approximation result to a gams H2A1A1 by Piessens, Robert dqpsrt.f for This routine maintains the descending ordering in the by Piessens, Robert dqrfac.f for Subsidiary to DNLS1, DNLS1E, DNSQ and DNSQE by (UNKNOWN) dqrslv.f for Subsidiary to DNLS1 and DNLS1E by (UNKNOWN) dqwgtc.f for This function subprogram is used together with the by Piessens, Robert dqwgtf.f for This function subprogram is used together with the by Piessens, Robert dqwgts.f for This function subprogram is used together with the by Piessens, Robert drc.f for Calculate a double precision approximation to gams C14 by Carlson, B. C. drc3jj.f for Evaluate the 3j symbol f(L1) = ( L1 L2 L3) gams C19 by GORDON, R. G., HARVARD UNIVERSITY drc3jm.f for Evaluate the 3j symbol g(M2) = (L1 L2 L3 ) gams C19 by GORDON, R. G., HARVARD UNIVERSITY drc6j.f for Evaluate the 6j symbol h(L1) = {L1 L2 L3} gams C19 by GORDON, R. G., HARVARD UNIVERSITY drd.f for Compute the incomplete or complete elliptic integral of gams C14 by Carlson, B. C. dreadp.f for Subsidiary to DSPLP by (UNKNOWN) dreort.f for Subsidiary to DBVSUP by Watts, H. A., (SNLA) drf.f for Compute the incomplete or complete elliptic integral of the gams C14 by Carlson, B. C. drj.f for Compute the incomplete or complete (X or Y or Z is zero) gams C14 by Carlson, B. C. drkfab.f for Subsidiary to DBVSUP by Watts, H. A., (SNLA) drkfs.f for Subsidiary to DDERKF by Watts, H. A., (SNLA) drsco.f for Subsidiary to DDEBDF by Watts, H. A., (SNLA) dslvs.f for Subsidiary to DDEBDF by Watts, H. A., (SNLA) dsort.f for Sort an array and optionally make the same interchanges in gams N6A2B by Jones, R. E., (SNLA) dsos.f for Solve a square system of nonlinear equations. gams F2A by Watts, H. A., (SNLA) dsoseq.f for Subsidiary to DSOS by (UNKNOWN) dsossl.f for Subsidiary to DSOS by (UNKNOWN) dsplp.f for Solve linear programming problems involving at gams G2A2 by Hanson, R. J., (SNLA) dsteps.f for Integrate a system of first order ordinary differential gams I1A1B by Shampine, L. F., (SNLA) dstod.f for Subsidiary to DDEBDF by Watts, H. A., (SNLA) dstor1.f for Subsidiary to DBVSUP by Watts, H. A., (SNLA) dstway.f for Subsidiary to DBVSUP by Watts, H. A., (SNLA) dsuds.f for Subsidiary to DBVSUP by Watts, H. A., (SNLA) dsvco.f for Subsidiary to DDEBDF by (UNKNOWN) du11ls.f for Subsidiary to DLLSIA by (UNKNOWN) du11us.f for Subsidiary to DULSIA by (UNKNOWN) du12ls.f for Subsidiary to DLLSIA by (UNKNOWN) du12us.f for Subsidiary to DULSIA by (UNKNOWN) dulsia.f for Solve an underdetermined linear system of equations by gams D9 by Manteuffel, T. A., (LANL) dusrmt.f for Subsidiary to DSPLP by (UNKNOWN) dvecs.f for Subsidiary to DBVSUP by Watts, H. A., (SNLA) dvnrms.f for Subsidiary to DDEBDF by (UNKNOWN) dvout.f for Subsidiary to DSPLP by Hanson, R. J., (SNLA) dwnlit.f for Subsidiary to DWNNLS by Hanson, R. J., (SNLA) dwnlsm.f for Subsidiary to DWNNLS by Hanson, R. J., (SNLA) dwnlt1.f for Subsidiary to WNLIT by Hanson, R. J., (SNLA) dwnlt2.f for Subsidiary to WNLIT by Hanson, R. J., (SNLA) dwnlt3.f for Subsidiary to WNLIT by Hanson, R. J., (SNLA) dwnnls.f for Solve a linearly constrained least squares problem with gams K1A2A by Hanson, R. J., (SNLA) dwritp.f for Subsidiary to DSPLP by (UNKNOWN) dwupdt.f for Subsidiary to DNLS1 and DNLS1E by (UNKNOWN) dx.f for Subsidiary to SEPELI by (UNKNOWN) dx4.f for Subsidiary to SEPX4 by (UNKNOWN) dxadd.f for To provide double-precision floating-point arithmetic gams A3D by LOZIER, DANIEL W., (NATIONAL BUREAU OF STANDARDS) dxadj.f for To provide double-precision floating-point arithmetic gams A3D by LOZIER, DANIEL W., (NATIONAL BUREAU OF STANDARDS) dxc210.f for To provide double-precision floating-point arithmetic gams A3D by LOZIER, DANIEL W., (NATIONAL BUREAU OF STANDARDS) dxcon.f for To provide double-precision floating-point arithmetic gams A3D by LOZIER, DANIEL W., (NATIONAL BUREAU OF STANDARDS) dxlegf.f for Compute normalized Legendre polynomials and associated gams C3A2, C9 by SMITH, JOHN M., (NBS AND GEORGE MASON UNIVERSITY) dxnrmp.f for Compute normalized Legendre polynomials. gams C3A2, C9 by LOZIER, DANIEL W., (NATIONAL BUREAU OF STANDARDS) dxpmu.f for To compute the values of Legendre functions for DXLEGF. gams C3A2, C9 by SMITH, JOHN M., (NBS AND GEORGE MASON UNIVERSITY) dxpmup.f for To compute the values of Legendre functions for DXLEGF. gams C3A2, C9 by SMITH, JOHN M., (NBS AND GEORGE MASON UNIVERSITY) dxpnrm.f for To compute the values of Legendre functions for DXLEGF. gams C3A2, C9 by SMITH, JOHN M., (NBS AND GEORGE MASON UNIVERSITY) dxpqnu.f for To compute the values of Legendre functions for DXLEGF. gams C3A2, C9 by SMITH, JOHN M., (NBS AND GEORGE MASON UNIVERSITY) dxpsi.f for To compute values of the Psi function for DXLEGF. gams C7C by SMITH, JOHN M., (NBS AND GEORGE MASON UNIVERSITY) dxqmu.f for To compute the values of Legendre functions for DXLEGF. gams C3A2, C9 by SMITH, JOHN M., (NBS AND GEORGE MASON UNIVERSITY) dxqnu.f for To compute the values of Legendre functions for DXLEGF. gams C3A2, C9 by SMITH, JOHN M., (NBS AND GEORGE MASON UNIVERSITY) dxred.f for To provide double-precision floating-point arithmetic gams A3D by LOZIER, DANIEL W., (NATIONAL BUREAU OF STANDARDS) dxset.f for To provide double-precision floating-point arithmetic gams A3D by LOZIER, DANIEL W., (NATIONAL BUREAU OF STANDARDS) dy.f for Subsidiary to SEPELI by (UNKNOWN) dy4.f for Subsidiary to SEPX4 by (UNKNOWN) dyairy.f for Subsidiary to DBESJ and DBESY by Amos, D. E., (SNLA) efc.f for Fit a piecewise polynomial curve to discrete data. gams K1A1A1, K1A2A, L8A3 by Hanson, R. J., (SNLA) efcmn.f for Subsidiary to EFC by Hanson, R. J., (SNLA) enorm.f for Subsidiary to SNLS1, SNLS1E, SNSQ and SNSQE by (UNKNOWN) exbvp.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) exint.f for Compute an M member sequence of exponential integrals gams C5 by Amos, D. E., (SNLA) fc.f for Fit a piecewise polynomial curve to discrete data. gams K1A1A1, K1A2A, L8A3 by Hanson, R. J., (SNLA) fcmn.f for Subsidiary to FC by (UNKNOWN) fdjac1.f for Subsidiary to SNSQ and SNSQE by (UNKNOWN) fdjac3.f for Subsidiary to SNLS1 and SNLS1E by (UNKNOWN) fdump.f for Symbolic dump (should be locally written). gams R3 by Jones, R. E., (SNLA) fftdoc.f for Documentation for FFTPACK, a collection of Fast Fourier gams J1, Z by Swarztrauber, P. N., (NCAR) fulmat.f for Subsidiary to SPLP by (UNKNOWN) fundoc.f for Documentation for FNLIB, a collection of routines for gams C, Z by Kahaner, D. K., (NBS) fzero.f for Search for a zero of a function F(X) in a given interval gams F1B by Shampine, L. F., (SNLA) gamln.f for Compute the logarithm of the Gamma function gams C7A by Amos, D. E., (SNL) gamrn.f for Subsidiary to BSKIN by Amos, D. E., (SNLA) gaus8.f for Integrate a real function of one variable over a finite gams H2A1A1 by Jones, R. E., (SNLA) h12.f for Subsidiary to HFTI, LSEI and WNNLS by (UNKNOWN) hfti.f for Solve a linear least squares problems by performing a QR gams D9 by Lawson, C. L., (JPL) hkseq.f for Subsidiary to BSKIN by Amos, D. E., (SNLA) hpperm.f for Rearrange a given array according to a prescribed gams N8 by McClain, M. A., (NIST) hpsort.f for Return the permutation vector generated by sorting a gams N6A1C, N6A2C by Jones, R. E., (SNLA) hstart.f for Subsidiary to DEABM, DEBDF and DERKF by Watts, H. A., (SNLA) hstcs1.f for Subsidiary to HSTCSP by (UNKNOWN) hvnrm.f for Subsidiary to DEABM, DEBDF and DERKF by Watts, H. A., (SNLA) hwscs1.f for Subsidiary to HWSCSP by (UNKNOWN) hwsss1.f for Subsidiary to HWSSSP by (UNKNOWN) i1mach.f for Return integer machine dependent constants. gams R1 by Fox, P. A., (Bell Labs) i1merg.f for Merge two strings of ascending integers. by Boland, W. Robert, (LANL) idloc.f for Subsidiary to DSPLP by Boland, W. Robert, (LANL) indxa.f for Subsidiary to BLKTRI by (UNKNOWN) indxb.f for Subsidiary to BLKTRI by (UNKNOWN) indxc.f for Subsidiary to BLKTRI by (UNKNOWN) intrv.f for Compute the largest integer ILEFT in 1 .LE. ILEFT .LE. LXT gams E3, K6 by Amos, D. E., (SNLA) intyd.f for Subsidiary to DEBDF by Watts, H. A., (SNLA) inxca.f for Subsidiary to CBLKTR by (UNKNOWN) inxcb.f for Subsidiary to CBLKTR by (UNKNOWN) inxcc.f for Subsidiary to CBLKTR by (UNKNOWN) iploc.f for Subsidiary to SPLP by Hanson, R. J., (SNLA) ipperm.f for Rearrange a given array according to a prescribed gams N8 by McClain, M. A., (NIST) ipsort.f for Return the permutation vector generated by sorting a given gams N6A1A, N6A2A by Jones, R. E., (SNLA) isort.f for Sort an array and optionally make the same interchanges in gams N6A2A by Jones, R. E., (SNLA) ivout.f for Subsidiary to SPLP by Hanson, R. J., (SNLA) j4save.f for Save or recall global variables needed by error by Jones, R. E., (SNLA) jairy.f for Subsidiary to BESJ and BESY by Amos, D. E., (SNLA) la05ad.f for Subsidiary to DSPLP by (UNKNOWN) la05as.f for Subsidiary to SPLP by (UNKNOWN) la05bd.f for Subsidiary to DSPLP by (UNKNOWN) la05bs.f for Subsidiary to SPLP by (UNKNOWN) la05cd.f for Subsidiary to DSPLP by (UNKNOWN) la05cs.f for Subsidiary to SPLP by (UNKNOWN) la05ed.f for Subsidiary to DSPLP by (UNKNOWN) la05es.f for Subsidiary to SPLP by (UNKNOWN) llsia.f for Solve a linear least squares problems by performing a QR gams D9, D5 by Manteuffel, T. A., (LANL) lmpar.f for Subsidiary to SNLS1 and SNLS1E by (UNKNOWN) lpdp.f for Subsidiary to LSEI by Hanson, R. J., (SNLA) lsame.f for Test two characters to determine if they are the same gams R, N3 by Hanson, R., (SNLA) lsei.f for Solve a linearly constrained least squares problem with gams K1A2A, D9 by Hanson, R. J., (SNLA) lsi.f for Subsidiary to LSEI by Hanson, R. J., (SNLA) lsod.f for Subsidiary to DEBDF by (UNKNOWN) lssods.f for Subsidiary to BVSUP by (UNKNOWN) lssuds.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) macon.f for Subsidiary to BVSUP by (UNKNOWN) mc20ad.f for Subsidiary to DSPLP by (UNKNOWN) mc20as.f for Subsidiary to SPLP by (UNKNOWN) mgsbv.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) minso4.f for Subsidiary to SEPX4 by (UNKNOWN) minsol.f for Subsidiary to SEPELI by (UNKNOWN) mpadd.f for Subsidiary to DQDOTA and DQDOTI by (UNKNOWN) mpadd2.f for Subsidiary to DQDOTA and DQDOTI by (UNKNOWN) mpadd3.f for Subsidiary to DQDOTA and DQDOTI by (UNKNOWN) mpblas.f for Subsidiary to DQDOTA and DQDOTI by (UNKNOWN) mpcdm.f for Subsidiary to DQDOTA and DQDOTI by (UNKNOWN) mpchk.f for Subsidiary to DQDOTA and DQDOTI by (UNKNOWN) mpcmd.f for Subsidiary to DQDOTA and DQDOTI by (UNKNOWN) mpdivi.f for Subsidiary to DQDOTA and DQDOTI by (UNKNOWN) mperr.f for Subsidiary to DQDOTA and DQDOTI by (UNKNOWN) mpmaxr.f for Subsidiary to DQDOTA and DQDOTI by (UNKNOWN) mpmlp.f for Subsidiary to DQDOTA and DQDOTI by (UNKNOWN) mpmul.f for Subsidiary to DQDOTA and DQDOTI by (UNKNOWN) mpmul2.f for Subsidiary to DQDOTA and DQDOTI by (UNKNOWN) mpmuli.f for Subsidiary to DQDOTA and DQDOTI by (UNKNOWN) mpnzr.f for Subsidiary to DQDOTA and DQDOTI by (UNKNOWN) mpovfl.f for Subsidiary to DQDOTA and DQDOTI by (UNKNOWN) mpstr.f for Subsidiary to DQDOTA and DQDOTI by (UNKNOWN) mpunfl.f for Subsidiary to DQDOTA and DQDOTI by (UNKNOWN) numxer.f for Return the most recent error number. gams R3C by Jones, R. E., (SNLA) ohtrol.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) ohtror.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) ortho4.f for Subsidiary to SEPX4 by (UNKNOWN) orthog.f for Subsidiary to SEPELI by (UNKNOWN) orthol.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) orthor.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) pchngs.f for Subsidiary to SPLP by Hanson, R. J., (SNLA) pcoef.f for Convert the POLFIT coefficients to Taylor series form. gams K1A1A2 by Shampine, L. F., (SNLA) pfqad.f for Compute the integral on (X1,X2) of a product of a function gams H2A2A1, E3, K6 by Amos, D. E., (SNLA) pgsf.f for Subsidiary to CBLKTR by (UNKNOWN) pimach.f for Subsidiary to HSTCSP, HSTSSP and HWSCSP by (UNKNOWN) pinitm.f for Subsidiary to SPLP by Hanson, R. J., (SNLA) pjac.f for Subsidiary to DEBDF by Watts, H. A., (SNLA) pnnzrs.f for Subsidiary to SPLP by Hanson, R. J., (SNLA) poisd2.f for Subsidiary to GENBUN by (UNKNOWN) poisn2.f for Subsidiary to GENBUN by (UNKNOWN) poisp2.f for Subsidiary to GENBUN by (UNKNOWN) polcof.f for Compute the coefficients of the polynomial fit (including gams E1B by Huddleston, R. E., (SNLL) polfit.f for Fit discrete data in a least squares sense by polynomials gams K1A1A2 by Shampine, L. F., (SNLA) polint.f for Produce the polynomial which interpolates a set of discrete gams E1B by Huddleston, R. E., (SNLL) polyvl.f for Calculate the value of a polynomial and its first NDER gams E3 by Huddleston, R. E., (SNLL) pos3d1.f for Subsidiary to POIS3D by (UNKNOWN) postg2.f for Subsidiary to POISTG by (UNKNOWN) ppadd.f for Subsidiary to BLKTRI by (UNKNOWN) ppgq8.f for Subsidiary to PFQAD by Jones, R. E., (SNLA) ppgsf.f for Subsidiary to CBLKTR by (UNKNOWN) pppsf.f for Subsidiary to CBLKTR by (UNKNOWN) ppqad.f for Compute the integral on (X1,X2) of a K-th order B-spline gams H2A2A1, E3, K6 by Amos, D. E., (SNLA) ppsgf.f for Subsidiary to BLKTRI by (UNKNOWN) ppspf.f for Subsidiary to BLKTRI by (UNKNOWN) ppval.f for Calculate the value of the IDERIV-th derivative of the gams E3, K6 by Amos, D. E., (SNLA) proc.f for Subsidiary to CBLKTR by (UNKNOWN) procp.f for Subsidiary to CBLKTR by (UNKNOWN) prod.f for Subsidiary to BLKTRI by (UNKNOWN) prodp.f for Subsidiary to BLKTRI by (UNKNOWN) prvec.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) prwpge.f for Subsidiary to SPLP by Hanson, R. J., (SNLA) prwvir.f for Subsidiary to SPLP by Hanson, R. J., (SNLA) psgf.f for Subsidiary to BLKTRI by (UNKNOWN) psifn.f for Compute derivatives of the Psi function. gams C7C by Amos, D. E., (SNLA) psixn.f for Subsidiary to EXINT by Amos, D. E., (SNLA) pvalue.f for Use the coefficients generated by POLFIT to evaluate the gams K6 by Shampine, L. F., (SNLA) pythag.f for Compute the complex square root of a complex number without by (UNKNOWN) qag.f for The routine calculates an approximation result to a given gams H2A1A1 by Piessens, Robert qage.f for The routine calculates an approximation result to a given gams H2A1A1 by Piessens, Robert qagi.f for The routine calculates an approximation result to a given gams H2A3A1, H2A4A1 by Piessens, Robert qagie.f for The routine calculates an approximation result to a given gams H2A3A1, H2A4A1 by Piessens, Robert qagp.f for The routine calculates an approximation result to a given gams H2A2A1 by Piessens, Robert qagpe.f for Approximate a given definite integral I = Integral of F gams H2A2A1 by Piessens, Robert qags.f for The routine calculates an approximation result to a given gams H2A1A1 by Piessens, Robert qagse.f for The routine calculates an approximation result to a given gams H2A1A1 by Piessens, Robert qawc.f for The routine calculates an approximation result to a gams H2A2A1, J4 by Piessens, Robert qawce.f for The routine calculates an approximation result to a gams H2A2A1, J4 by Piessens, Robert qawf.f for The routine calculates an approximation result to a given gams H2A3A1 by Piessens, Robert qawfe.f for The routine calculates an approximation result to a gams H2A3A1 by Piessens, Robert qawo.f for Calculate an approximation to a given definite integral gams H2A2A1 by Piessens, Robert qawoe.f for Calculate an approximation to a given definite integral gams H2A2A1 by Piessens, Robert qaws.f for The routine calculates an approximation result to a given gams H2A2A1 by Piessens, Robert qawse.f for The routine calculates an approximation result to a given gams H2A2A1 by Piessens, Robert qc25c.f for To compute I = Integral of F*W over (A,B) with gams H2A2A2, J4 by Piessens, Robert qc25f.f for To compute the integral I=Integral of F(X) over (A,B) gams H2A2A2 by Piessens, Robert qc25s.f for To compute I = Integral of F*W over (BL,BR), with error gams H2A2A2 by Piessens, Robert qcheb.f for This routine computes the CHEBYSHEV series expansion by Piessens, Robert qelg.f for The routine determines the limit of a given sequence of by Piessens, Robert qform.f for Subsidiary to SNSQ and SNSQE by (UNKNOWN) qk15.f for To compute I = Integral of F over (A,B), with error gams H2A1A2 by Piessens, Robert qk15i.f for The original (infinite integration range is mapped gams H2A3A2, H2A4A2 by Piessens, Robert qk15w.f for To compute I = Integral of F*W over (A,B), with error gams H2A2A2 by Piessens, Robert qk21.f for To compute I = Integral of F over (A,B), with error gams H2A1A2 by Piessens, Robert qk31.f for To compute I = Integral of F over (A,B) with error gams H2A1A2 by Piessens, Robert qk41.f for To compute I = Integral of F over (A,B), with error gams H2A1A2 by Piessens, Robert qk51.f for To compute I = Integral of F over (A,B) with error gams H2A1A2 by Piessens, Robert qk61.f for To compute I = Integral of F over (A,B) with error gams H2A1A2 by Piessens, Robert qmomo.f for This routine computes modified Chebyshev moments. The K-th gams H2A2A1, C3A2 by Piessens, Robert qnc79.f for Integrate a function using a 7-point adaptive Newton-Cotes gams H2A1A1 by Kahaner, D. K., (NBS) qng.f for The routine calculates an approximation result to a gams H2A1A1 by Piessens, Robert qpdoc.f for Documentation for QUADPACK, a package of subprograms for gams H2, Z by Piessens, Robert qpsrt.f for Subsidiary to QAGE, QAGIE, QAGPE, QAGSE, QAWCE, QAWOE and by (UNKNOWN) qrfac.f for Subsidiary to SNLS1, SNLS1E, SNSQ and SNSQE by (UNKNOWN) qrsolv.f for Subsidiary to SNLS1 and SNLS1E by (UNKNOWN) qwgtc.f for This function subprogram is used together with the by Piessens, Robert qwgtf.f for This function subprogram is used together with the by Piessens, Robert qwgts.f for This function subprogram is used together with the by Piessens, Robert r1mach.f for Return floating point machine dependent constants. gams R1 by Fox, P. A., (Bell Labs) r1mpyq.f for Subsidiary to SNSQ and SNSQE by (UNKNOWN) r1updt.f for Subsidiary to SNSQ and SNSQE by (UNKNOWN) rc.f for Calculate an approximation to gams C14 by Carlson, B. C. rc3jj.f for Evaluate the 3j symbol f(L1) = ( L1 L2 L3) gams C19 by GORDON, R. G., HARVARD UNIVERSITY rc3jm.f for Evaluate the 3j symbol g(M2) = (L1 L2 L3 ) gams C19 by GORDON, R. G., HARVARD UNIVERSITY rc6j.f for Evaluate the 6j symbol h(L1) = {L1 L2 L3} gams C19 by GORDON, R. G., HARVARD UNIVERSITY rd.f for Compute the incomplete or complete elliptic integral of the gams C14 by Carlson, B. C. reort.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) rf.f for Compute the incomplete or complete elliptic integral of the gams C14 by Carlson, B. C. rj.f for Compute the incomplete or complete (X or Y or Z is zero) gams C14 by Carlson, B. C. rkfab.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) rpqr79.f for Find the zeros of a polynomial with real coefficients. gams F1A1A by Vandevender, W. H., (SNLA) rpzero.f for Find the zeros of a polynomial with real coefficients. gams F1A1A by Kahaner, D. K., (NBS) rsco.f for Subsidiary to DEBDF by Watts, H. A., (SNLA) rwupdt.f for Subsidiary to SNLS1 and SNLS1E by (UNKNOWN) s1merg.f for Merge two strings of ascending real numbers. by (UNKNOWN) sbocls.f for Solve the bounded and constrained least squares gams K1A2A, G2E, G2H1, G2H2 by Hanson, R. J., (SNLA) sbols.f for Solve the problem gams K1A2A, G2E, G2H1, G2H2 by Hanson, R. J., (SNLA) sbolsm.f for Subsidiary to SBOCLS and SBOLS by (UNKNOWN) sclosm.f for Subsidiary to SPLP by (UNKNOWN) scoef.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) scov.f for Calculate the covariance matrix for a nonlinear data gams K1B1 by Hiebert, K. L., (SNLA) sdaini.f for Initialization routine for SDASSL. by PETZOLD, LINDA R., (LLNL) sdajac.f for Compute the iteration matrix for SDASSL and form the by PETZOLD, LINDA R., (LLNL) sdanrm.f for Compute vector norm for SDASSL. by PETZOLD, LINDA R., (LLNL) sdaslv.f for Linear system solver for SDASSL. by PETZOLD, LINDA R., (LLNL) sdassl.f for This code solves a system of differential/algebraic gams I1A2 by PETZOLD, LINDA R., (LLNL) sdastp.f for Perform one step of the SDASSL integration. by PETZOLD, LINDA R., (LLNL) sdatrp.f for Interpolation routine for SDASSL. by PETZOLD, LINDA R., (LLNL) sdawts.f for Set error weight vector for SDASSL. by PETZOLD, LINDA R., (LLNL) sdcor.f for Subroutine SDCOR computes corrections to the Y array. by Kahaner, D. K., (NIST) sdcst.f for SDCST sets coefficients used by the core integrator SDSTP. by Kahaner, D. K., (NIST) sdntl.f for Subroutine SDNTL is called to set parameters on the first by Kahaner, D. K., (NIST) sdntp.f for Subroutine SDNTP interpolates the K-th derivative of Y at by Kahaner, D. K., (NIST) sdpsc.f for Subroutine SDPSC computes the predicted YH values by by Kahaner, D. K., (NIST) sdpst.f for Subroutine SDPST evaluates the Jacobian matrix of the right by Kahaner, D. K., (NIST) sdriv1.f for The function of SDRIV1 is to solve N (200 or fewer) gams I1A2, I1A1B by Kahaner, D. K., (NIST) sdriv2.f for The function of SDRIV2 is to solve N ordinary differential gams I1A2, I1A1B by Kahaner, D. K., (NIST) sdriv3.f for The function of SDRIV3 is to solve N ordinary differential gams I1A2, I1A1B by Kahaner, D. K., (NIST) sdscl.f for Subroutine SDSCL rescales the YH array whenever the step by Kahaner, D. K., (NIST) sdstp.f for SDSTP performs one step of the integration of an initial by Kahaner, D. K., (NIST) sdzro.f for SDZRO searches for a zero of a function F(N, T, Y, IROOT) by Kahaner, D. K., (NIST) sgeev.f for Compute the eigenvalues and, optionally, the eigenvectors gams D4A2 by Kahaner, D. K., (NBS) sgefs.f for Solve a general system of linear equations. gams D2A1 by Voorhees, E. A., (LANL) sgeir.f for Solve a general system of linear equations. Iterative gams D2A1 by Voorhees, E. A., (LANL) sglss.f for Solve a linear least squares problems by performing a QR gams D9, D5 by Manteuffel, T. A., (LANL) sintrp.f for Approximate the solution at XOUT by evaluating the gams I1A1B by Watts, H. A., (SNLA) slvs.f for Subsidiary to DEBDF by Watts, H. A., (SNLA) smout.f for Subsidiary to FC and SBOCLS by (UNKNOWN) snbco.f for Factor a band matrix using Gaussian elimination and gams D2A2 by Voorhees, E. A., (LANL) snbdi.f for Compute the determinant of a band matrix using the factors gams D3A2 by Voorhees, E. A., (LANL) snbfa.f for Factor a real band matrix by elimination. gams D2A2 by Voorhees, E. A., (LANL) snbfs.f for Solve a general nonsymmetric banded system of linear gams D2A2 by Voorhees, E. A., (LANL) snbir.f for Solve a general nonsymmetric banded system of linear gams D2A2 by Voorhees, E. A., (LANL) snbsl.f for Solve a real band system using the factors computed by gams D2A2 by Voorhees, E. A., (LANL) snls1.f for Minimize the sum of the squares of M nonlinear functions gams K1B1A1, K1B1A2 by Hiebert, K. L., (SNLA) snls1e.f for An easy-to-use code which minimizes the sum of the squares gams K1B1A1, K1B1A2 by Hiebert, K. L., (SNLA) snsq.f for Find a zero of a system of a N nonlinear functions in N gams F2A by Hiebert, K. L., (SNLA) snsqe.f for An easy-to-use code to find a zero of a system of N gams F2A by Hiebert, K. L., (SNLA) sods.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) sopenm.f for Subsidiary to SPLP by (UNKNOWN) sos.f for Solve a square system of nonlinear equations. gams F2A by Watts, H. A., (SNLA) soseqs.f for Subsidiary to SOS by (UNKNOWN) sossol.f for Subsidiary to SOS by (UNKNOWN) speli4.f for Subsidiary to SEPX4 by (UNKNOWN) spelip.f for Subsidiary to SEPELI by (UNKNOWN) spincw.f for Subsidiary to SPLP by (UNKNOWN) spinit.f for Subsidiary to SPLP by (UNKNOWN) splp.f for Solve linear programming problems involving at gams G2A2 by Hanson, R. J., (SNLA) splpce.f for Subsidiary to SPLP by (UNKNOWN) splpdm.f for Subsidiary to SPLP by (UNKNOWN) splpfe.f for Subsidiary to SPLP by (UNKNOWN) splpfl.f for Subsidiary to SPLP by (UNKNOWN) splpmn.f for Subsidiary to SPLP by (UNKNOWN) splpmu.f for Subsidiary to SPLP by (UNKNOWN) splpup.f for Subsidiary to SPLP by (UNKNOWN) spofs.f for Solve a positive definite symmetric system of linear gams D2B1B by Voorhees, E. A., (LANL) spoir.f for Solve a positive definite symmetric system of linear gams D2B1B by Voorhees, E. A., (LANL) spopt.f for Subsidiary to SPLP by (UNKNOWN) spperm.f for Rearrange a given array according to a prescribed gams N8 by McClain, M. A., (NIST) spsort.f for Return the permutation vector generated by sorting a given gams N6A1B, N6A2B by Jones, R. E., (SNLA) sreadp.f for Subsidiary to SPLP by (UNKNOWN) ssiev.f for Compute the eigenvalues and, optionally, the eigenvectors gams D4A1 by Kahaner, D. K., (NBS) ssort.f for Sort an array and optionally make the same interchanges in gams N6A2B by Jones, R. E., (SNLA) steps.f for Integrate a system of first order ordinary differential gams I1A1B by Shampine, L. F., (SNLA) stod.f for Subsidiary to DEBDF by Watts, H. A., (SNLA) stor1.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) stway.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) suds.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) svco.f for Subsidiary to DEBDF by (UNKNOWN) svd.f for Perform the singular value decomposition of a rectangular by (UNKNOWN) svecs.f for Subsidiary to BVSUP by Watts, H. A., (SNLA) svout.f for Subsidiary to SPLP by (UNKNOWN) swritp.f for Subsidiary to SPLP by (UNKNOWN) tevlc.f for Subsidiary to CBLKTR by (UNKNOWN) tevls.f for Subsidiary to BLKTRI by (UNKNOWN) tri3.f for Subsidiary to GENBUN by (UNKNOWN) tridq.f for Subsidiary to POIS3D by (UNKNOWN) tris4.f for Subsidiary to SEPX4 by (UNKNOWN) trisp.f for Subsidiary to SEPELI by (UNKNOWN) trix.f for Subsidiary to GENBUN by (UNKNOWN) u11ls.f for Subsidiary to LLSIA by (UNKNOWN) u11us.f for Subsidiary to ULSIA by (UNKNOWN) u12ls.f for Subsidiary to LLSIA by (UNKNOWN) u12us.f for Subsidiary to ULSIA by (UNKNOWN) ulsia.f for Solve an underdetermined linear system of equations by gams D9 by Manteuffel, T. A., (LANL) usrmat.f for Subsidiary to SPLP by (UNKNOWN) vnwrms.f for Subsidiary to DEBDF by (UNKNOWN) wnlit.f for Subsidiary to WNNLS by Hanson, R. J., (SNLA) wnlsm.f for Subsidiary to WNNLS by Hanson, R. J., (SNLA) wnlt1.f for Subsidiary to WNLIT by Hanson, R. J., (SNLA) wnlt2.f for Subsidiary to WNLIT by Hanson, R. J., (SNLA) wnlt3.f for Subsidiary to WNLIT by Hanson, R. J., (SNLA) wnnls.f for Solve a linearly constrained least squares problem with gams K1A2A by Hanson, R. J., (SNLA) xadd.f for To provide single-precision floating-point arithmetic gams A3D by LOZIER, DANIEL W., (NATIONAL BUREAU OF STANDARDS) xadj.f for To provide single-precision floating-point arithmetic gams A3D by LOZIER, DANIEL W., (NATIONAL BUREAU OF STANDARDS) xc210.f for To provide single-precision floating-point arithmetic gams A3D by LOZIER, DANIEL W., (NATIONAL BUREAU OF STANDARDS) xcon.f for To provide single-precision floating-point arithmetic gams A3D by LOZIER, DANIEL W., (NATIONAL BUREAU OF STANDARDS) xerbla.f for Error handler for the Level 2 and Level 3 BLAS Routines. gams R3 by Dongarra, J. J., (ANL) xerclr.f for Reset current error number to zero. gams R3C by Jones, R. E., (SNLA) xercnt.f for Allow user control over handling of errors. gams R3C by Jones, R. E., (SNLA) xerdmp.f for Print the error tables and then clear them. gams R3C by Jones, R. E., (SNLA) xerhlt.f for Abort program execution and print error message. gams R3C by Jones, R. E., (SNLA) xermax.f for Set maximum number of times any error message is to be gams R3C by Jones, R. E., (SNLA) xermsg.f for Process error messages for SLATEC and other libraries. gams R3C by Fong, Kirby, (NMFECC at LLNL) xerprn.f for Print error messages processed by XERMSG. gams R3C by Fong, Kirby, (NMFECC at LLNL) xersve.f for Record that an error has occurred. gams R3 by Jones, R. E., (SNLA) xgetf.f for Return the current value of the error control flag. gams R3C by Jones, R. E., (SNLA) xgetua.f for Return unit number(s) to which error messages are being gams R3C by Jones, R. E., (SNLA) xgetun.f for Return the (first) output file to which error messages gams R3C by Jones, R. E., (SNLA) xlegf.f for Compute normalized Legendre polynomials and associated gams C3A2, C9 by SMITH, JOHN M., (NBS AND GEORGE MASON UNIVERSITY) xnrmp.f for Compute normalized Legendre polynomials. gams C3A2, C9 by LOZIER, DANIEL W., (NATIONAL BUREAU OF STANDARDS) xpmu.f for To compute the values of Legendre functions for XLEGF. gams C3A2, C9 by SMITH, JOHN M., (NBS AND GEORGE MASON UNIVERSITY) xpmup.f for To compute the values of Legendre functions for XLEGF. gams C3A2, C9 by SMITH, JOHN M., (NBS AND GEORGE MASON UNIVERSITY) xpnrm.f for To compute the values of Legendre functions for XLEGF. gams C3A2, C9 by SMITH, JOHN M., (NBS AND GEORGE MASON UNIVERSITY) xpqnu.f for To compute the values of Legendre functions for XLEGF. gams C3A2, C9 by SMITH, JOHN M., (NBS AND GEORGE MASON UNIVERSITY) xpsi.f for To compute values of the Psi function for XLEGF. gams C7C by SMITH, JOHN M., (NBS AND GEORGE MASON UNIVERSITY) xqmu.f for To compute the values of Legendre functions for XLEGF. gams C3A2, C9 by SMITH, JOHN M., (NBS AND GEORGE MASON UNIVERSITY) xqnu.f for To compute the values of Legendre functions for XLEGF. gams C3A2, C9 by SMITH, JOHN M., (NBS AND GEORGE MASON UNIVERSITY) xred.f for To provide single-precision floating-point arithmetic gams A3D by LOZIER, DANIEL W., (NATIONAL BUREAU OF STANDARDS) xset.f for To provide single-precision floating-point arithmetic gams A3D by LOZIER, DANIEL W., (NATIONAL BUREAU OF STANDARDS) xsetf.f for Set the error control flag. gams R3A by Jones, R. E., (SNLA) xsetua.f for Set logical unit numbers (up to 5) to which error gams R3B by Jones, R. E., (SNLA) xsetun.f for Set output file to which error messages are to be sent. gams R3B by Jones, R. E., (SNLA) yairy.f for Subsidiary to BESJ and BESY by Amos, D. E., (SNLA) zabs.f for Subsidiary to ZBESH, ZBESI, ZBESJ, ZBESK, ZBESY, ZAIRY and by Amos, D. E., (SNL) zacai.f for Subsidiary to ZAIRY by Amos, D. E., (SNL) zacon.f for Subsidiary to ZBESH and ZBESK by Amos, D. E., (SNL) zairy.f for Compute the Airy function Ai(z) or its derivative dAi/dz gams C10D by Amos, D. E., (SNL) zasyi.f for Subsidiary to ZBESI and ZBESK by Amos, D. E., (SNL) zbesh.f for Compute a sequence of the Hankel functions H(m,a,z) gams C10A4 by Amos, D. E., (SNL) zbesi.f for Compute a sequence of the Bessel functions I(a,z) for gams C10B4 by Amos, D. E., (SNL) zbesj.f for Compute a sequence of the Bessel functions J(a,z) for gams C10A4 by Amos, D. E., (SNL) zbesk.f for Compute a sequence of the Bessel functions K(a,z) for gams C10B4 by Amos, D. E., (SNL) zbesy.f for Compute a sequence of the Bessel functions Y(a,z) for gams C10A4 by Amos, D. E., (SNL) zbinu.f for Subsidiary to ZAIRY, ZBESH, ZBESI, ZBESJ, ZBESK and ZBIRY by Amos, D. E., (SNL) zbiry.f for Compute the Airy function Bi(z) or its derivative dBi/dz gams C10D by Amos, D. E., (SNL) zbknu.f for Subsidiary to ZAIRY, ZBESH, ZBESI and ZBESK by Amos, D. E., (SNL) zbuni.f for Subsidiary to ZBESI and ZBESK by Amos, D. E., (SNL) zbunk.f for Subsidiary to ZBESH and ZBESK by Amos, D. E., (SNL) zdiv.f for Subsidiary to ZBESH, ZBESI, ZBESJ, ZBESK, ZBESY, ZAIRY and by Amos, D. E., (SNL) zexp.f for Subsidiary to ZBESH, ZBESI, ZBESJ, ZBESK, ZBESY, ZAIRY and by Amos, D. E., (SNL) zkscl.f for Subsidiary to ZBESK by Amos, D. E., (SNL) zlog.f for Subsidiary to ZBESH, ZBESI, ZBESJ, ZBESK, ZBESY, ZAIRY and by Amos, D. E., (SNL) zmlri.f for Subsidiary to ZBESI and ZBESK by Amos, D. E., (SNL) zmlt.f for Subsidiary to ZBESH, ZBESI, ZBESJ, ZBESK, ZBESY, ZAIRY and by Amos, D. E., (SNL) zrati.f for Subsidiary to ZBESH, ZBESI and ZBESK by Amos, D. E., (SNL) zs1s2.f for Subsidiary to ZAIRY and ZBESK by Amos, D. E., (SNL) zseri.f for Subsidiary to ZBESI and ZBESK by Amos, D. E., (SNL) zshch.f for Subsidiary to ZBESH and ZBESK by Amos, D. E., (SNL) zsqrt.f for Subsidiary to ZBESH, ZBESI, ZBESJ, ZBESK, ZBESY, ZAIRY and by Amos, D. E., (SNL) zuchk.f for Subsidiary to SERI, ZUOIK, ZUNK1, ZUNK2, ZUNI1, ZUNI2 and by Amos, D. E., (SNL) zunhj.f for Subsidiary to ZBESI and ZBESK by Amos, D. E., (SNL) zuni1.f for Subsidiary to ZBESI and ZBESK by Amos, D. E., (SNL) zuni2.f for Subsidiary to ZBESI and ZBESK by Amos, D. E., (SNL) zunik.f for Subsidiary to ZBESI and ZBESK by Amos, D. E., (SNL) zunk1.f for Subsidiary to ZBESK by Amos, D. E., (SNL) zunk2.f for Subsidiary to ZBESK by Amos, D. E., (SNL) zuoik.f for Subsidiary to ZBESH, ZBESI and ZBESK by Amos, D. E., (SNL) zwrsk.f for Subsidiary to ZBESI and ZBESK by Amos, D. E., (SNL) ----------------------------------------------------------- for nonlinear equations and nonlinear least squares path: /netlib/sminpack/ ----------------------------------------------------------- .depend chkdrv.f covar.f dependencies errjac.f ex/ for examples hybdrv.f hybipt.f hyjdrv.f ibmspd.f lmddrv.f lmdipt.f lmfdrv.f lmsdrv.f makefile readme for overview of sminpack chkder.f for check gradients for consistency with functions gams f3, g4c, k6d dogleg.f for determine combination of gauss-newton and gradient directions enorm.f for calculate euclidean norm of vector fdjac1.f for calculate difference approximation to jacobian (nonlinear equations) fdjac2.f for calculate difference approximation to jacobian (least squares) hybrd.f for solve systems of nonlinear equations (approximate jacobian) gams f2 hybrd1.f for easy-to-use driver for (sminpack/hybrd) gams f2 hybrj.f for solve systems of nonlinear equations (analytic jacobian) gams f2 hybrj1.f for easy-to-use driver for (sminpack/hybrj) gams f2 lmder.f for solve nonlinear least squares problem (analytic jacobian) gams k1b1a2 lmder1.f for easy-to-use driver for (sminpack/lmder) gams k1b1a2 lmdif.f for solve nonlinear least squares problem (approximate jacobian) gams k1b1a1 lmdif1.f for easy-to-use driver for (sminpack/lmdif) gams k1b1a1 lmpar.f for determine levenberg-marquardt parameter lmstr.f for solve nonlinear least squares problem (storage conserving) gams k1b1a2 lmstr1.f for easy-to-use driver for (sminpack/lmstr) gams k1b1a2 qform.f for accumulate orthogonal matrix from QR factorization qrfac.f for compute QR factorization of rectangular matrix qrsolv.f for complete solution of least squares problem rwupdt.f for update QR factorization after row addition r1mpyq.f for apply orthogonal transformations from QR factorization r1updt.f for update QR factorization after rank-1 addition smchar.f spmpar.f for provide single precision machine parameters ssqfcn.f ssqjac.f vecfcn.f vecjac.f ----------------------------------------------------------- for examples path: /netlib/sminpack/ex/ ----------------------------------------------------------- # Program files file01 for Function SPMPAR file02 for MINPACK-1 prec single file03 for MINPACK-1 documentation prec single file04 for Function DPMPAR file05 for MINPACK-1 file06 for MINPACK-1 documentation prec double # Test files file07 for SMCHAR test file08 for HYBRD test prec single file09 for HYBRJ test prec single file10 for LMDER test prec single file11 for LMSTR test prec single file12 for LMDIF test prec single file13 for CHKDER test prec single file14 for DMCHAR test file15 for HYBRD test prec double file16 for HYBRJ test prec double file17 for LMDER test prec double file18 for LMSTR test prec double file19 for LMDIF test prec double file20 for CHKDER test prec double file21 for HYBRD and HYBRJ data file22 for LMDER, LMSTR, and LMDIf data file23 for CHKDER data ----------------------------------------------------------- for ODE package path: /netlib/sodepack/ ----------------------------------------------------------- .depend Makefile demo.f for example program for the routines in the odepack library prec single dependencies doc for document describing the set of routines in the odepack library, recommended reading prec single lsoda.f for ODEs of the form dy/dt=f, automatic selection between stiff and nonstiff methods gams I1a1b I1a2 prec single lsodar.f for a variant of (odepack/lsoda) for ODEs of the form dy/dt=f for stiff and nostiff odes with root finding for a set of functions, usefule for stopping conditions or switching forms of the function f gams I1a1b I1a2 prec single lsode.f for stiff and nonstiff systems of ODEs of the form dy/dt = f, Adams method or Backward-Differentiation Formula, user supplied or difference quotient Jacobians gams I1a1b I1a2 prec single lsodes.f for stiff and nonstiff ODEs of the form dy/dt=f, general sparse Jacobian gams I1a1b I1a2 prec single lsodi.f for systems of ODEs of the form A(t,y) dy/dt = g(t,y), this can include differential-algebraic systems gams I1a1b I1a2 prec single lsoibt.f for systems of ODEs of the form A(t,y) dy/dt = g(t,y), all matrices involved are assumed to be block-tridiagonal gams I1a1b I1a2 prec single adjlr.f aigbt.f ainvg.f blkdta000.f bnorm.f cdrv.f cfode.f cntnzu.f decbt.f ewset.f fnorm.f intdy.f iprep.f jgroup.f md.f mdi.f mdm.f mdp.f mdu.f nnfc.f nnsc.f nntc.f nroc.f nsfc.f odrv.f pjibt.f prep.f prepj.f prepji.f prja.f prjs.f rchek.f roots.f slsbt.f slss.f solbt.f solsy.f srcar.f srcma.f srcms.f srcom.f sro.f stoda.f stode.f stodi.f vmnorm.f vnorm.f xerrwv.f xsetf.f xsetun.f readme ----------------------------------------------------------- for sparse extension to Basic Linear Algebra path: /netlib/sparse-blas/ ----------------------------------------------------------- BOEING/ makefile paper-alg readme for overview of sparse-blas paper.tr for troff source for sparse BLAS paper paper2.tr for troff source for sparse BLAS model implementation paper readme.doc realblas.f for source code for real sparse BLAS model implementation prec single realmain.f for main program for real sparse BLAS test program prec single realtsub.f for test routines for real sparse BLAS test program prec single sblas0.f for more routines for real sparse BLAS test program prec single real.in for sample data set for real sparse BLAS test program prec single doubblas.f for source code for double precision sparse BLAS model implementation prec double doubmain.f for main program for double precision sparse BLAS test program prec double doubtsub.f for test routines for double precision sparse BLAS test program prec double dblas0.f for more routines for double precision sparse BLAS test program prec double double.in for sample data set for double precision sparse BLAS test program prec double compblas.f for source code for complex sparse BLAS model implementation prec complex compmain.f for main program for complex sparse BLAS test program prec complex comptsub.f for test routines for complex sparse BLAS test program prec complex cblas0.f for more routines for complex sparse BLAS test program prec complex complex.in for sample data set for complex sparse BLAS test program prec complex cp16blas.f for source code for complex*16 sparse BLAS model implementation prec double complex cp16main.f for main program for complex*16 sparse BLAS test program prec double complex cp16tsub.f for test routines for complex*16 sparse BLAS test program prec double complex zblas0.f for more routines for complex*16 sparse BLAS test program prec double complex complx16.in for sample data set for complex*16 sparse BLAS test program prec double complex iblas0.f for blas-like routines for all sparse BLAS test programs prec double complex ----------------------------------------------------------- path: /netlib/sparse-blas/BOEING/ ----------------------------------------------------------- f1 f10 f11 f12 f2 f3 f4 f5 f6 f7 f8 f9 tape ----------------------------------------------------------- for large sparse systems of linear equations using path: /netlib/sparse/ ----------------------------------------------------------- file2 file3 file4 index.master readme for overview of Sparse 1.3 and timing results spfactor.l spfactor.m timing.txt for Sparse 1.3 Timing Comparisons # Sparse source spallocate.c spbuild.c spconfig.h spdefs.h spfactor.c spmatrix.h spsolve.c spfortran.c spoutput.c sprevision sptest.c sputils.c makefile for UNIX makefile make.com for VMS makefile # Sparse User's Guide spdoc for line printer version spdoc.ms for source file in troff -ms # Test matrices mat0 mat1 mat2 mat3 mat5 ----------------------------------------------------------- # withdrawn by authors' request path: /netlib/sparspak/ ----------------------------------------------------------- readme ----------------------------------------------------------- for special functions and accompanying test programs path: /netlib/specfun/ ----------------------------------------------------------- machar readme for overview of specfun algama for log(gamma) function gams c7a lang fortran algtst for test program for log(gamma) function daw for Dawson's integral gams c8c lang fortran dawtst for test program for Dawson's integral ei for various exponential integrals lang fortran gams c5 eitest for test program for various exponential integrals erf for error and scaled and unscaled complimentary error functions gams c8a lang fortran erftst for test program for error and scaled and unscaled complimentary error functions gamma for gamma function gams c7a lang fortran gamtst for test program for gamma function i0 for Bessel function I-sub-0 gams c10b1 lang fortran i0test for test program for Bessel function I-sub-0 i1 for Bessel function I-sub-1 gams c10b1 lang fortran i1test for test program for Bessel function I-sub-1 j0test for test program for Bessel function J-sub-0 j0y0 for Bessel functions J-sub-0 and Y-sub-0 gams c10a1 lang fortran j1test for test program for Bessel function J-sub-1 j1y1 for Bessel functions J-sub-1 and Y-sub-1 gams c10a1 lang fortran k0 for Bessel function K-sub-0 gams c10b1 lang fortran k0test for test program for Bessel function K-sub-0 k1 for Bessel function K-sub-1 gams c10b1 lang fortran k1test for test program for Bessel function K-sub-1 newmach for environmental inquiry program psi for the psi function gams c7c lang fortran psitst for test program for the psi function ren for random number generator ribesl for Bessel function I-sub-nu gams c10b3 lang fortran ritest for test program for Bessel function I-sub-nu rjbesl for Bessel function J-sub-nu gams c10a3 lang fortran rjtest for test program for Bessel function J-sub-nu rkbesl for Bessel function K-sub-nu gams c10b3 lang fortran rktest for test program for Bessel function K-sub-nu rybesl for Bessel function Y-sub-nu gams c10a3 lang fortran rytest for test program for Bessel function Y-sub-nu y0test for test program for Bessel function Y-sub-0 y1test for test program for Bessel function Y-sub-1 ----------------------------------------------------------- for Automated Verification of Concurrent Systems. path: /netlib/spin/ ----------------------------------------------------------- news.html for Index to the SPIN Newsletters news1.html news2.html news3.html news4.html news5.html news6.html news7.html news8.html spin2.7.Src/ for Verification software for concurrent systems, with sources by Gerard J. Holzmann, AT&T Bell Laboratories, Murray Hill, NJ lang C spin2.Xspin/ for X-windows based interface to all functionality of SPIN version 2 lang Tcl/Tk spin2.Doc/ for Documentation and sanity Tests for SPIN version 2 version_2.7_.html for current version number, with brief notes on last changes permission for Copyright and usage information workshop95.tex ----------------------------------------------------------- for Verification software for concurrent systems, path: /netlib/spin/spin2.7.Src/ ----------------------------------------------------------- README.spin Src2.7/ ----------------------------------------------------------- path: /netlib/spin/spin2.7.Src/Src2.7/ ----------------------------------------------------------- dstep.c flow.c guided.c main.c makefile mesg.c pangen1.c pangen1.h pangen2.c pangen2.h pangen3.c pangen3.h pangen4.c run.c sched.c spin.h spin.y spinlex.c structures.c sym.c tl.h tl_buchi.c tl_cache.c tl_lex.c tl_main.c tl_malloc.c tl_parse.c tl_rewrite.c tl_trans.c vars.c version.h ----------------------------------------------------------- for Documentation and sanity Tests for SPIN version path: /netlib/spin/spin2.Doc/ ----------------------------------------------------------- Doc/ Test/ ----------------------------------------------------------- path: /netlib/spin/spin2.Doc/Doc/ ----------------------------------------------------------- Book.Ch6.add Book.Errata Book.samples Manual.ps Pan.Directives Roadmap Spin.projects V1.Updates V2.Updates WhatsNew.ps spin.1 spin.1.man ----------------------------------------------------------- path: /netlib/spin/spin2.Doc/Test/ ----------------------------------------------------------- README.tests erathostenes hello leader loops pftp priorities snoopy sort ----------------------------------------------------------- for X-windows based interface to all functionality path: /netlib/spin/spin2.Xspin/ ----------------------------------------------------------- README.xspin Xspin/ ----------------------------------------------------------- path: /netlib/spin/spin2.Xspin/Xspin/ ----------------------------------------------------------- Barchart.tcl Dataflow.tcl File.tcl Fsm.tcl Help.tcl LTL.tcl Roadmap.tcl Simulation.tcl Validation.tcl tclIndex to_make_index xspin ----------------------------------------------------------- for linear systems of Toeplitz or circulant form path: /netlib/stoeplitz/ ----------------------------------------------------------- # Index for stoeplitz .depend caxpy.f prec single cccslc.f prec single ccgslc.f prec single ccslc.f prec single cctslc.f prec single cdotc.f prec single cgefa.f prec single cgesl.f prec single cgslc.f prec single cqrc.f prec single cqrs.f prec single cscal.f prec single cslc.f prec single csscal.f prec single ctgslc.f prec single ctrdi.f prec single ctslc.f prec single dependencies icamax.f prec single index.bak1 isamax.f prec single makefile prec single readme salwc.f prec single saxpy.f prec single scnrm2.f prec single sdot.f prec single sgefa.f prec single sgesl.f prec single snrm2.f prec single sscal.f prec single strdi.f prec single tgslc.f prec single tgslc1.f prec single tgsls.f prec single tgsls1.f prec single tslc.f prec single tslc1.f prec single tsls.f prec single tsls1.f prec single ----------------------------------------------------------- for testing string matching algorithms path: /netlib/stringsearch/ ----------------------------------------------------------- bmsrc/ for test harness and algorithms bmdata/ for test data (bible and 500 word test set) size 524 kB bmctl/ for shell scripts to generate performance data bmbio/ for test data (DNA text and test sets) by GENBANK size 440 kB disclaimer ----------------------------------------------------------- for test data (DNA text and test sets) path: /netlib/stringsearch/bmbio/ ----------------------------------------------------------- dna.10 dna.100 dna.150 dna.20 dna.200 dna.250 dna.30 dna.40 dna.50 dna.test ----------------------------------------------------------- for shell scripts to generate performance data path: /netlib/stringsearch/bmctl/ ----------------------------------------------------------- ave.times runall rundna runset ----------------------------------------------------------- for test data (bible and 500 word test set) path: /netlib/stringsearch/bmdata/ ----------------------------------------------------------- bible rand.500 w.10 w.11 w.12 w.13 w.3 w.4 w.5 w.6 w.7 w.8 w.9 ----------------------------------------------------------- for test harness and algorithms path: /netlib/stringsearch/bmsrc/ ----------------------------------------------------------- Mk/ README fast.fwd.inc.c fast.rev.d12.c freq.h lC.fwd.inc.c lC.fwdg.md2.c lc.fwd.inc.c lc.fwdg.md2.c main.c mk no.fwd.inc.c no.fwd.sd1.c no.rev.d12.c sd.h sfC.fwd.inc.c sfc.fwd.inc.c slfC.fwd.inc.c slfc.fwd.inc.c stats.h sys/ uF.fwd.inc.c uf.fwd.inc.c uf.fwd.md2.c uf.fwdg.inc.c uf.fwdg.md2.c uf.fwdm.inc.c uf.fwdmg.inc.c uf.om.inc.c uf.om.md2.c uf.rev.d1.c uf.rev.d12.c uf.rev.d2.c uf.rev.gd2.c uf.rev.inc.c uf.rev.md2.c uf.rev.sd1.c uf.rev.sdmd2.c uf.revg.inc.c uf1.fwd.inc.c uf2.fwd.inc.c uf3.fwd.inc.c uf4.fwd.inc.c uf5.fwd.inc.c uf6.fwd.inc.c ----------------------------------------------------------- path: /netlib/stringsearch/bmsrc/Mk/ ----------------------------------------------------------- 370 386 68k common cray mips sparc vax ----------------------------------------------------------- path: /netlib/stringsearch/bmsrc/sys/ ----------------------------------------------------------- 370.c 386.c 68k.c cray.c mips.c sparc.c vax.c ----------------------------------------------------------- for singular values and singular vectors of large path: /netlib/svdpack/ ----------------------------------------------------------- 1line 5LINES 5lines readme for description of SVDPACK ijsa.ps for M. Berry, "Large Scale Singular Value Computations", International Journal of Supercomputer Applications 6:1, (1992), pp. 13-49 las1 for SVD of large sparse matrices by Michael W. Berry ref M. Berry, "Large Scale Singular Value Computations", International Journal of Supercomputer Applications 6:1, (1992), pp. 13-49. prec double lang Fortran77 alg Single vector Lanczos for equivalent 2-cyclic eigensystems lad1 for Documentation for las1 from SVDPACK by Michael W. Berry see svdpack/las1 lai5 for Sample parameter file for las1 from SVDPACK by Michael W. Berry see svdpack/las1 lai7 for SVDPACK sample input file (sparse matrix A) # used in SVDPACK driver programs by Michael W. Berry lao9 for Sample output file of singular values and statistics # for las1 from SVDPACK by Michael W. Berry see svdpack/las1 las2 for SVD of large sparse matrices by Michael W. Berry ref M. Berry, "Large Scale Singular Value Computations", International Journal of Supercomputer Applications 6:1, (1992), pp. 13-49. prec double lang Fortran77 alg Single vector Lanczos for A'A eigensystems lad2 for Documentation for las2 from SVDPACK by Michael W. Berry see svdpack/las2 lai1 for Sample parameter file for las2 from SVDPACK by Michael W. Berry see svdpack/las2 lao2 for Sample output file of singular values and statistics # for las2 from SVDPACK by Michael W. Berry see svdpack/las2 bls1 for SVD of large sparse matrices by Michael W. Berry ref M. Berry, "Large Scale Singular Value Computations", International Journal of Supercomputer Applications 6:1, (1992), pp. 13-49. prec double lang Fortran77 alg Block Lanczos for equivalent 2-cyclic eigensystems bld1 for Documentation for bls1 from SVDPACK by Michael W. Berry see svdpack/bls1 bli5 for Sample parameter file for bls1 from SVDPACK by Michael W. Berry see svdpack/bls1 blo9 for Sample output file of singular values and statistics # for bls1 from SVDPACK by Michael W. Berry see svdpack/bls1 bls2 for SVD of large sparse matrices by Michael W. Berry ref M. Berry, "Large Scale Singular Value Computations", International Journal of Supercomputer Applications 6:1, (1992), pp. 13-49. prec double lang Fortran77 alg Block Lanczos for A'A eigensystems bld2 for Documentation for bls2 from SVDPACK by Michael W. Berry see svdpack/bls2 bli1 for Sample parameter file for bls2 from SVDPACK by Michael W. Berry see svdpack/bls2 blo2 for Sample output file of singular values and statistics # for bls2 from SVDPACK by Michael W. Berry see svdpack/bls2 sis1 for SVD of large sparse matrices by Michael W. Berry ref M. Berry, "Large Scale Singular Value Computations", International Journal of Supercomputer Applications 6:1, (1992), pp. 13-49. prec double lang Fortran77 alg Subspace iteration (Rutishauser's ritzit) for equivalent 2-cyclic eigensystems sid1 for Documentation for sis1 from SVDPACK by Michael W. Berry see svdpack/sis1 sii5 for Sample parameter file for sis1 from SVDPACK by Michael W. Berry see svdpack/sis1 sio4 for Sample output file of convergence statistics # for sis1 from SVDPACK by Michael W. Berry see svdpack/sis1 sio9 for Sample output file of singular values and statistics # for sis1 from SVDPACK by Michael W. Berry see svdpack/sis1 sis2 for SVD of large sparse matrices by Michael W. Berry ref M. Berry, "Large Scale Singular Value Computations", International Journal of Supercomputer Applications 6:1, (1992), pp. 13-49. prec double lang Fortran77 alg Subspace iteration (Rutishauser's ritzit) for A'A eigensystems sid2 for Documentation for sis2 from SVDPACK by Michael W. Berry see svdpack/sis2 sii1 for Sample parameter file for sis2 from SVDPACK by Michael W. Berry see svdpack/sis2 sio2 for Sample output file of singular values and statistics # for sis2 from SVDPACK by Michael W. Berry see svdpack/sis2 sio5 for Sample output file of convergence statistics # for sis2 from SVDPACK by Michael W. Berry see svdpack/sis2 csis3/ for SVD of large sparse nonhermitian complex matrices by Sowmini Varadhan and Michael W. Berry ref M. Berry, "Large Scale Singular Value Computations", International Journal of Supercomputer Applications 6:1, (1992), pp. 13-49. prec single complex lang Fortran77 alg Subspace iteration (Rutishauser's ritzit) for A'A eigensystems with restarting capability see svdpack/sis3.tar.Z sis3/ for Incremental SVD of large sparse matrices by Sowmini Varadhan and Michael W. Berry ref M. Berry, "Large Scale Singular Value Computations", International Journal of Supercomputer Applications 6:1, (1992), pp. 13-49. prec double lang Fortran77 alg Subspace iteration (Rutishauser's ritzit) for A'A eigensystems with restarting capability see svdpack/csis3.tar.Z tms1 for SVD of large sparse matrices by Michael W. Berry ref M. Berry, "Large Scale Singular Value Computations", International Journal of Supercomputer Applications 6:1, (1992), pp. 13-49. prec double lang Fortran77 alg Trace minimization for shifted 2-cyclic eigensystems using Ritz-shifting tmd1 for Documentation for tms1 from SVDPACK by Michael W. Berry see svdpack/tms1 tmi5 for Sample parameter file for tms1 from SVDPACK by Michael W. Berry see svdpack/tms1 tmo9 for Sample output file of singular values and statistics # for las1 from SVDPACK by Michael W. Berry see svdpack/tms1 tms2 for SVD of large sparse matrices by Michael W. Berry ref M. Berry, "Large Scale Singular Value Computations", International Journal of Supercomputer Applications 6:1, (1992), pp. 13-49. prec double lang Fortran77 alg Trace minimization for shifted A'A eigensystems using Ritz-shifting and Chebyshev polynomial acceleration tmd2 for Documentation for tms2 from SVDPACK by Michael W. Berry see svdpack/tms2 tmi1 for Sample parameter file for tms2 from SVDPACK by Michael W. Berry see svdpack/tms2 tmo2 for Sample output file of singular values and statistics # for tms2 from SVDPACK by Michael W. Berry see svdpack/tms2 blas for Level 1, 2, and 3 Basic Linear Algebra Subroutines from LAPACK used by SVDPACK routines by Michael W. Berry see svdpack/bls1, svdpack/bls2, svdpack/sis1, svdpack/sis2, svdpack/tms1, svdpack/tms2 dat1 for SVDPACK sample sparse matrix in Harwell-Boeing format 3206 by 44 term-document matrix from an information retrieval application by Apple Computer Inc. dat2 for SVDPACK sample sparse matrix in Harwell-Boeing format 1472 by 294 term-document matrix from an information retrieval application by Apple Computer Inc. dat3 for SVDPACK sample sparse matrix in Harwell-Boeing format 1436 by 330 Jacobian matrix from a seismic tomography application by Amoco Research Inc. makecray for UNIX c-shell script for producing Cray Fortran equivalent SVDPACK routines and input files by Michael W. Berry makefile for UNIX makefile for SVDPACK executables (e.g., issue "make las1.x" to create las1.x) by Michael W. Berry svdpackc/ for C version of SVDPACK for computing the SVD of large sparse real matrices by Michael W. Berry et al. ref M. Berry et al., "SVDPACKC (Version 1.0) User's Guide", Univ. of Tennessee Tech. Report CS-93-194, April 1993 (Revised October 1993) prec double lang C see tennessee/ut-cs-93-194.ps ----------------------------------------------------------- for SVD of large sparse nonhermitian complex path: /netlib/svdpack/csis3/ ----------------------------------------------------------- BLAS/ LAPACK/ README cop.f csid3 csii3 csio.stats csio3 csis3.f makefile matrix ----------------------------------------------------------- path: /netlib/svdpack/csis3/BLAS/ ----------------------------------------------------------- caxpy.f ccopy.f cdotc.f cgemm.f cgemv.f cgerc.f chemv.f cher2.f cher2k.f cscal.f csscal.f cswap.f ctrmm.f ctrmv.f library.a makefile scnrm2.f ----------------------------------------------------------- path: /netlib/svdpack/csis3/LAPACK/ ----------------------------------------------------------- chetd2.f chetrd.f clacgv.f cladiv.f clarf.f clarfb.f clarfg.f clarft.f clasr.f clatrd.f clazro.f csteqr.f cung2l.f cung2r.f cungql.f cungqr.f cungtr.f ilaenv.f library.a lsame.f makefile sladiv.f slae2.f slaev2.f slamch.f slapy2.f slapy3.f slartg.f xerbla.f ----------------------------------------------------------- for Incremental SVD of large sparse matrices path: /netlib/svdpack/sis3/ ----------------------------------------------------------- BLAS/ LAPACK/ README makefile matrix sid3 sii3 sio.stats sio3 sis3.f ----------------------------------------------------------- path: /netlib/svdpack/sis3/BLAS/ ----------------------------------------------------------- daxpy.f daxpy.o dcopy.f dcopy.o ddot.f ddot.o dgemm.f dgemm.o dgemv.f dgemv.o dger.f dger.o dnrm2.f dnrm2.o dscal.f dscal.o dswap.f dswap.o dsymv.f dsymv.o dsyr2.f dsyr2.o dsyr2k.f dsyr2k.o dtrmm.f dtrmm.o dtrmv.f dtrmv.o library.a lsame.f makefile xerbla.f ----------------------------------------------------------- path: /netlib/svdpack/sis3/LAPACK/ ----------------------------------------------------------- dlae2.f dlae2.o dlaev2.f dlaev2.o dlamch.f dlamch.o dlapy2.f dlapy2.o dlarf.f dlarf.o dlarfb.f dlarfb.o dlarfg.f dlarfg.o dlarft.f dlarft.o dlartg.f dlartg.o dlasr.f dlasr.o dlatrd.f dlatrd.o dlazro.f dlazro.o dorg2l.f dorg2l.o dorg2r.f dorg2r.o dorgql.f dorgql.o dorgqr.f dorgqr.o dorgtr.f dorgtr.o dsteqr.f dsteqr.o dsytd2.f dsytd2.o dsytrd.f dsytrd.o ilaenv.f ilaenv.o library.a lsame.f lsame.o makefile xerbla.f xerbla.o ----------------------------------------------------------- for C version of SVDPACK for computing the SVD of path: /netlib/svdpack/svdpackc/ ----------------------------------------------------------- CRAY/ README belladit belladit.out1 belladit.out2 belladit.out3 belladit.out4 belladit.out5 belladit.out6 belladit.out7 belladit.out8 bld1 bld2 blp1 blp2 bls1.c bls1.h bls1.make bls2.c bls2.h guide.ps lad1 lad2 lap1 lap2 las1.c las1.h las1.make las2.c las2.h las2.make makefile sid1 sid2 sip1 sip2 sis1.c sis1.make sis2.c sis2.make sisc.h sisg.h svdin svdin.bench svdin.sum1 svdin.sum2 svdrun svdrun.mac svdsum timermac.c timersun.c tmd1 tmd2 tmp1 tmp2 tms1.c tms1.make tms2.c tms2.make tmsc.h tmsg.h ----------------------------------------------------------- path: /netlib/svdpack/svdpackc/CRAY/ ----------------------------------------------------------- bls1.c bls1.h bls2.c bls2.h las1.c las1.h las2.c las2.h makefile sis1.c sis2.c sisc.h sisg.h svdin svdrun svdsum timercray.c tms1.c tms2.c tmsc.h tmsg.h ----------------------------------------------------------- for "one-liner" drivers of common numerical path: /netlib/templates/ ----------------------------------------------------------- 2nd-ed.ps l2fit/ for command-line driver for least squares fitting by Bentley Fernandez Kernighan Schryer ref ACM TOMS 19,265 templates.ps for iterative solution of linear systems by Richard Barrett, Michael Berry, Tony F. Chan, James Demmel, June Donato, Jack Dongarra, Victor Eijkhout, Roldan Pozo, Charles Romine, and Henk Van der Vorst size 852410 bytes # Book on iterative method for large sparse nonsymmetric systems of linear equations. SIAM has published Templates for the Solution of Linear Systems: Building Blocks for Iterative Methods in hardcopy. List Price: $18.00 SIAM Member Price: $14.40. To order, contact service@siam.org or call 800-447-SIAM. Prepayment is required. templates_code.errata mltemplates/ for iterative solution of linear systems by Richard Barrett, Michael Berry, Tony F. Chan, James Demmel, June Donato, Jack Dongarra, Victor Eijkhout, Roldan Pozo, Charles Romine, and Henk Van der Vorst size 49653 bytes # Matlab scripts for the algorithms in the Templates book. sftemplates/ for iterative solution of linear systems by Richard Barrett, Michael Berry, Tony F. Chan, James Demmel, June Donato, Jack Dongarra, Victor Eijkhout, Roldan Pozo, Charles Romine, and Henk Van der Vorst size 452049 bytes # Single precision Fortran programs for the algorithms in the Templates book. sctemplates/ dctemplates/ sftemplates/ for iterative solution of linear systems by Richard Barrett, Michael Berry, Tony F. Chan, James Demmel, June Donato, Jack Dongarra, Victor Eijkhout, Roldan Pozo, Charles Romine, and Henk Van der Vorst size 451496 bytes # Single precision Fortran programs for the algorithms in the Templates book. dftemplates/ for iterative solution of linear systems by Richard Barrett, Michael Berry, Tony F. Chan, James Demmel, June Donato, Jack Dongarra, Victor Eijkhout, Roldan Pozo, Charles Romine, and Henk Van der Vorst size 451496 bytes # Double precision Fortran programs for the algorithms in the Templates book. Templates.html for iterative solution of linear systems by Richard Barrett, Michael Berry, Tony F. Chan, James Demmel, June Donato, Jack Dongarra, Victor Eijkhout, Roldan Pozo, Charles Romine, and Henk Van der Vorst This is the html version of the book. Book on iterative method for large sparse nonsymmetric systems of linear equations. SIAM has published Templates for the Solution of Linear Systems: Building Blocks for Iterative Methods in hardcopy. List Price: $18.00 SIAM Member Price: $14.40. To order, contact service@siam.org or call 800-447-SIAM. Prepayment is required. ----------------------------------------------------------- path: /netlib/templates/dctemplates/ ----------------------------------------------------------- BiCG.c BiCGSTAB.c CG.c CGS.c Cheby.c F2CLIBS/ GMRES.c Jacobi.c Makefile MatGen.c MatVec.c PSolve.c QMR.c README SOR.c Tester.c Utils.c dblas.c dlapack.c dnsychk.c dspdchk.c f2c.h test.data test.results ----------------------------------------------------------- path: /netlib/templates/dctemplates/F2CLIBS/ ----------------------------------------------------------- f2c.h libF77/ libI77/ ----------------------------------------------------------- path: /netlib/templates/dctemplates/F2CLIBS/libF77/ ----------------------------------------------------------- Notice README Version.c abort_.c c_abs.c c_cos.c c_div.c c_exp.c c_log.c c_sin.c c_sqrt.c cabs.c d_abs.c d_acos.c d_asin.c d_atan.c d_atn2.c d_cnjg.c d_cos.c d_cosh.c d_dim.c d_exp.c d_imag.c d_int.c d_lg10.c d_log.c d_mod.c d_nint.c d_prod.c d_sign.c d_sin.c d_sinh.c d_sqrt.c d_tan.c d_tanh.c derf_.c derfc_.c ef1asc_.c ef1cmc_.c erf_.c erfc_.c f2c.h f2ch.add getarg_.c getenv_.c h_abs.c h_dim.c h_dnnt.c h_indx.c h_len.c h_mod.c h_nint.c h_sign.c hl_ge.c hl_gt.c hl_le.c hl_lt.c i_abs.c i_dim.c i_dnnt.c i_indx.c i_len.c i_mod.c i_nint.c i_sign.c iargc_.c l_ge.c l_gt.c l_le.c l_lt.c libF77.xsum main.c makefile pow_ci.c pow_dd.c pow_di.c pow_hh.c pow_ii.c pow_qq.c pow_ri.c pow_zi.c pow_zz.c r_abs.c r_acos.c r_asin.c r_atan.c r_atn2.c r_cnjg.c r_cos.c r_cosh.c r_dim.c r_exp.c r_imag.c r_int.c r_lg10.c r_log.c r_mod.c r_nint.c r_sign.c r_sin.c r_sinh.c r_sqrt.c r_tan.c r_tanh.c s_cat.c s_cmp.c s_copy.c s_paus.c s_rnge.c s_stop.c sig_die.c signal_.c system_.c z_abs.c z_cos.c z_div.c z_exp.c z_log.c z_sin.c z_sqrt.c ----------------------------------------------------------- path: /netlib/templates/dctemplates/F2CLIBS/libI77/ ----------------------------------------------------------- Notice README Version.c backspace.c close.c dfe.c dolio.c due.c endfile.c err.c f2c.h f2ch.add fio.h fmt.c fmt.h fmtlib.c fp.h iio.c ilnw.c inquire.c libI77.xsum lio.h local.h lread.c lwrite.c makefile open.c rawio.h rdfmt.c rewind.c rsfe.c rsli.c rsne.c sfe.c sue.c typesize.c uio.c util.c wref.c wrtfmt.c wsfe.c wsle.c wsne.c xwsne.c ----------------------------------------------------------- for iterative solution of linear systems path: /netlib/templates/dftemplates/ ----------------------------------------------------------- double/ ----------------------------------------------------------- path: /netlib/templates/dftemplates/double/ ----------------------------------------------------------- BiCG.f BiCGREVCOM.f BiCGSTAB.f BiCGSTABREVCOM.f CG.f CGREVCOM.f CGS.f CGSREVCOM.f Cheby.f ChebyREVCOM.f GMRES.f GMRESREVCOM.f Jacobi.f JacobiREVCOM.f Makefile MatGen.f MatVec.f PSolve.f QMR.f QMRREVCOM.f README SOR.f SORREVCOM.f STOPTEST2.f Tester.f Utils.f dblas.f dlapack.f dnsychk.f dspdchk.f dutils.f test.data test.results ----------------------------------------------------------- for command-line driver for least squares fitting path: /netlib/templates/l2fit/ ----------------------------------------------------------- README gen.data l2fit manpage ----------------------------------------------------------- for iterative solution of linear systems path: /netlib/templates/mltemplates/ ----------------------------------------------------------- README bicg.m bicgstab.m cg.m cgs.m cheby.m gmres.m jacobi.m lehmer.m makefish.m matgen.m qmr.m rotmat.m sor.m split.m tester.m wathen.m ----------------------------------------------------------- path: /netlib/templates/sctemplates/ ----------------------------------------------------------- BiCG.c BiCGSTAB.c CG.c CGS.c Cheby.c F2CLIBS/ GMRES.c Jacobi.c Makefile MatGen.c MatVec.c PSolve.c QMR.c SOR.c Tester.c Utils.c f2c.h sblas.c slapack.c snsychk.c sspdchk.c test.data ----------------------------------------------------------- path: /netlib/templates/sctemplates/F2CLIBS/ ----------------------------------------------------------- f2c.h libF77/ libI77/ ----------------------------------------------------------- path: /netlib/templates/sctemplates/F2CLIBS/libF77/ ----------------------------------------------------------- Notice README Version.c abort_.c c_abs.c c_cos.c c_div.c c_exp.c c_log.c c_sin.c c_sqrt.c cabs.c d_abs.c d_acos.c d_asin.c d_atan.c d_atn2.c d_cnjg.c d_cos.c d_cosh.c d_dim.c d_exp.c d_imag.c d_int.c d_lg10.c d_log.c d_mod.c d_nint.c d_prod.c d_sign.c d_sin.c d_sinh.c d_sqrt.c d_tan.c d_tanh.c derf_.c derfc_.c ef1asc_.c ef1cmc_.c erf_.c erfc_.c f2c.h f2ch.add getarg_.c getenv_.c h_abs.c h_dim.c h_dnnt.c h_indx.c h_len.c h_mod.c h_nint.c h_sign.c hl_ge.c hl_gt.c hl_le.c hl_lt.c i_abs.c i_dim.c i_dnnt.c i_indx.c i_len.c i_mod.c i_nint.c i_sign.c iargc_.c l_ge.c l_gt.c l_le.c l_lt.c libF77.xsum main.c makefile pow_ci.c pow_dd.c pow_di.c pow_hh.c pow_ii.c pow_qq.c pow_ri.c pow_zi.c pow_zz.c r_abs.c r_acos.c r_asin.c r_atan.c r_atn2.c r_cnjg.c r_cos.c r_cosh.c r_dim.c r_exp.c r_imag.c r_int.c r_lg10.c r_log.c r_mod.c r_nint.c r_sign.c r_sin.c r_sinh.c r_sqrt.c r_tan.c r_tanh.c s_cat.c s_cmp.c s_copy.c s_paus.c s_rnge.c s_stop.c sig_die.c signal_.c system_.c z_abs.c z_cos.c z_div.c z_exp.c z_log.c z_sin.c z_sqrt.c ----------------------------------------------------------- path: /netlib/templates/sctemplates/F2CLIBS/libI77/ ----------------------------------------------------------- Notice README Version.c backspace.c close.c dfe.c dolio.c due.c endfile.c err.c f2c.h f2ch.add fio.h fmt.c fmt.h fmtlib.c fp.h iio.c ilnw.c inquire.c libI77.xsum lio.h local.h lread.c lwrite.c makefile open.c rawio.h rdfmt.c rewind.c rsfe.c rsli.c rsne.c sfe.c sue.c typesize.c uio.c util.c wref.c wrtfmt.c wsfe.c wsle.c wsne.c xwsne.c ----------------------------------------------------------- for iterative solution of linear systems path: /netlib/templates/sftemplates/ ----------------------------------------------------------- single/ ----------------------------------------------------------- path: /netlib/templates/sftemplates/single/ ----------------------------------------------------------- BiCG.f BiCGREVCOM.f BiCGSTAB.f BiCGSTABREVCOM.f CG.f CGREVCOM.f CGS.f CGSREVCOM.f Cheby.f ChebyREVCOM.f GMRES.f GMRESREVCOM.f Jacobi.f JacobiREVCOM.f Makefile MatGen.f MatVec.f PSolve.f QMR.f QMRREVCOM.f README SOR.f SORREVCOM.f STOPTEST2.f Tester.f Utils.f sblas.f slapack.f snsychk.f sspdchk.f sutils.f test.data test.results ----------------------------------------------------------- for linear systems of Toeplitz or circulant form path: /netlib/toeplitz/ ----------------------------------------------------------- # Index for toeplitz .depend cccslz.f prec double ccgslz.f prec double ccslz.f prec double cctslz.f prec double cgslz.f prec double cqrd.f prec double cqrz.f prec double cslz.f prec double ctgslz.f prec double ctslz.f prec double daxpy.f prec double dcabs1.f prec double ddot.f prec double dependencies dgefa.f prec double dgesl.f prec double dnrm2.f prec double dscal.f prec double dtrdi.f prec double dznrm2.f prec double idamax.f prec double izamax.f prec double makefile prec double readme salwz.f prec double tgsld.f prec double tgsld1.f prec double tgslz.f prec double tgslz1.f prec double tsld.f prec double tsld1.f prec double tslz.f prec double tslz1.f prec double zaxpy.f prec double zdotc.f prec double zdscal.f prec double zgefa.f prec double zgesl.f prec double zscal.f prec double ztrdi.f prec double ----------------------------------------------------------- for troff and TeX macros path: /netlib/typesetting/ ----------------------------------------------------------- bit chapman/ for documentstyle for Chapman+Hall conference proceedings chem/ for troff preprocessor for chemical structure diagrams by John Bentley, Lynn Jelinski, and Brian Kernighan. cmd-latex/ for some useful commands for Latex: r2bib, textr, texoff, delatex imappt-amstex for a style file for IMA preprints for AmSTeX, Jan 1990 indexing.tools/ for tools for preparing indexes (mostly for the troff world) ref EP-ODD, Vol 1, #1 by J. L. Bentley and B. W. Kernighan ltexpprt.all for LaTeX macros for SIAM/ACM Preprint series (book chapters) ltexfrnt.all for LaTeX macros for SIAM Frontiers book series mathtim.sty for LaTeX documentstyle option for MathTime fonts by Eric Grosse see builds on on ftp://ftp.urc.tue.nl/pub/tex/MathTime/mathtim e.sty ptexpprt.all for corresponding Plain TeX macros sampltex.all/ for sample paper for LaTeX style siamams.all/ for AMS-TeX by Arnold, Lucier, and SIAM siamltex.all/ for LaTeX by Howard Trickey, Dec 1988 siamptex.all for Plain TeX by SIAM Publications and AMS, Apr 1989 siamtrof.all for troff, in the style of -ms, May 1987 ptexproc.all for SIAM Proceedings Series, Plain TeX macros ltexproc.all for SIAM Proceedings Series, LaTeX macros times.sty elsevier/ for Elsevier book macros ----------------------------------------------------------- for documentstyle for Chapman+Hall conference path: /netlib/typesetting/chapman/ ----------------------------------------------------------- bib.bib chapman.sty chapman11.sty fixup.sty p.tex ----------------------------------------------------------- for troff preprocessor for chemical structure path: /netlib/typesetting/chem/ ----------------------------------------------------------- PS-PEmacros README chem chem.awk chem.macros eth.p lsd.p morphine.p ----------------------------------------------------------- for some useful commands for Latex: r2bib, textr, path: /netlib/typesetting/cmd-latex/ ----------------------------------------------------------- delatex.lex r2bib/ texoff texrm textr/ ----------------------------------------------------------- path: /netlib/typesetting/cmd-latex/r2bib/ ----------------------------------------------------------- r2bib.1 r2bib.c ----------------------------------------------------------- path: /netlib/typesetting/cmd-latex/textr/ ----------------------------------------------------------- GREEK.h README README2 bugs flip.h makefile mathcom.h sep.tex setups.h similar.h subs.c testfile textr.c tr.c troff_mac.h ----------------------------------------------------------- for Elsevier book macros path: /netlib/typesetting/elsevier/ ----------------------------------------------------------- manual.tex for example text file and instructions manual.toc for Contents file for the manual verbatim.tex for Knut's verbatim option speech.sty for LaTeX documentstyle speech10.sty for LaTeX documentstyle newbold.sty for LaTeX documentstyle option oldbold.sty for LaTeX documentstyle option toc.sty for LaTeX documentstyle option nhtables.sty for LaTeX documentstyle for producing tables README ----------------------------------------------------------- for tools for preparing indexes (mostly for the path: /netlib/typesetting/indexing.tools/ ----------------------------------------------------------- README cleanup deroman doclean final.sort format gen.key hierarchy install ix.macro ix.test make.index num.collapse range.collapse range.prep range.sort reroman rotate see.prep see.terms ----------------------------------------------------------- for sample paper for LaTeX style path: /netlib/typesetting/sampltex.all/ ----------------------------------------------------------- siam.bib siam.tex ----------------------------------------------------------- for AMS-TeX path: /netlib/typesetting/siamams.all/ ----------------------------------------------------------- amstexsiam.sty siamdoc.tex siamsample.tex ----------------------------------------------------------- for LaTeX path: /netlib/typesetting/siamltex.all/ ----------------------------------------------------------- READ.ME docultex.tex lexample.tex numinsec.sty siam.bst siam10.sty siam11.sty siamltex.sty subeqn.sty ----------------------------------------------------------- for unconstrained optimization path: /netlib/uncon/ ----------------------------------------------------------- almost.f for Brown Almost Linear badscb.f for Brown Badly Scaled badscp.f for Powell Badly Scaled band.f for Broyden Banded bard.f for Bard bd.f for Brown and Dennis beale.f for Beale biggs.f for Biggs EXP6 box.f for Box 3-Dimensional bv.f for Discrete Boundary Value cheb.f for Chebyquad devg1.f for De Villiers and Glasser 1 devg2.f for De Villiers and Glasser 2 dgv6.f for Dennis, Gay, and Vu dgv8.f for Dennis, Gay, and Vu froth.f for Freudenstein and Roth gauss.f for Gaussian gulf.f for Gulf Research and Development han1.f for Hanson 1 han2.f for Hanson 2 helix.f for Helical Valley ie.f for Discrete Integral Equation jensam.f for Jennrich and Sampson kowosb.f for Kowalik and Osborne lin.f for Linear --- Full Rank lin0.f for Linear --- Rank 1 with Zero Columns and Rows lin1.f for Linear --- Rank 1 mck1.f for McKeown 1 mck2.f for McKeown 2 mck3.f for McKeown 3 meyer.f for Meyer msqrt2.f for Matrix Square Root Problems msqrt3.f for Matrix Square Root Problems osb1.f for Osborne 1 osb2.f for Osborne 2 pen1.f for Penalty I pen2.f for Penalty II rose.f for Rosenbrock rosex.f for Extended Rosenbrock sing.f for Powell Singular singx.f for Extended Powell Singular trid.f for Broyden Tridiagonal trig.f for Trigonometric vardim.f for Variably Dimensioned watson.f for Watson wood.f for Wood readme ----------------------------------------------------------- for total least squares, Partial Singular Value path: /netlib/vanhuffel/ ----------------------------------------------------------- .depend Makefile bidiag-doc bidiag.f for auxiliary routines called by dtls, psvd, ptls cancel.f damin.f dependencies dtls-doc gams d9a1, d9a4 dtls.f for solves Ax=b, where A as well as b may be inaccurate gams d9a1, d9a4 estim-doc estim.f for singular values of a bidiagonal by bisection housh.f init.f nsingv-doc nsingv.f for number of singular values left of a bound, of a bidiagonal matrix psvd-doc gams d6 psvd.f for basis for the left/right space corresponding to small singular values gams d6 ptls-doc gams d9a1, d9a4 ptls.f for like dtls, but using the faster Partial SVD gams d9a1, d9a4 qlstep.f qrql-doc qrql.f for diagonalizes a bidiagonal matrix qrstep.f restor.f tr2.f filelist readme ----------------------------------------------------------- for a vectorized version of fftpack, for multiple path: /netlib/vfftpack/ ----------------------------------------------------------- .depend dependencies doc for user guide for vfftpack vsinti.f for Initialization routine for VSINT gams -0- vsint.f for Forward or backward transform for multiple odd sequences gams J1a3 vsinqi.f for Initialization routine for VSINQF and VSINQB gams -0- vsinqf.f for Forward transform of multiple odd sequences with only odd wave numbers (quarter-wave sine transform) gams J1a3 vsinqb.f for Backward transform for multiple odd sequences with only odd wave numbers (quarter-wave sine transform) gams J1a3 vrffti.f for Initialization routine for VRFFTF and VRFFTB gams -0- vrfftf.f for Forward transform of multiple real periodic sequences gams J1a1 vrfftb.f for Backward transform for multiple real periodic sequences gams J1a1 vcosti.f for Initialization routine for VCOST gams -0- vcost.f for Forward or backward transform for multiple even sequences gams J1a3 vcosqi.f for Initialization routine for VCOSQF and VCOSQB gams -0- vcosqf.f for Forward transform of multiple even sequences with only odd wave numbers (quarter-wave cosine transform) gams J1a3 vcosqb.f for Backward transform of multiple even sequences with only odd wave numbers (quarter-wave cosine transform) gams J1a3 pimach.f vradb2.f vradb3.f vradb4.f vradb5.f vradbg.f vradf2.f vradf3.f vradf4.f vradf5.f vradfg.f vrftb1.f vrftf1.f vrfti1.f ----------------------------------------------------------- for vectorized evaluation of special functions path: /netlib/vfnlib/ ----------------------------------------------------------- #Index for vfnlib .depend Makefile dependencies vi0.f for hyperbolic bessel function of the first kind of order zero (I0) for a vector of real arguments gams c10b1 prec single vi1.f for hyperbolic bessel function of the first kind of order one (I1) for a vector of real arguments gams c10b1 prec single vk0.f for hyperbolic bessel function of the third kind of order zero (K0) for a vector of real arguments gams c10b1 prec single vk1.f for hyperbolic bessel function of the third kind of order one (K1) for a vector of real arguments gams c10b1 prec single vj0.f for the bessel function of the first kind of order zero (J0) for a vector of real arguments gams c10a1 prec single vj1.f for the bessel function of the first kind of order one (J1) for a vector of real arguments gams c10a1 prec single vy0.f for the bessel function of the second kind of order zero (Y0) for a vector of real arguments gams c10a1 prec single vy1.f for the bessel function of the second kind of order one (Y1) for a vector of real arguments gams c10a1 prec single dvi0.f for hyperbolic bessel function of the first kind of order zero (I0) for a vector of real arguments gams c10b1 prec double dvi1.f for hyperbolic bessel function of the first kind of order one (I1) for a vector of real arguments gams c10b1 prec double dvk0.f for hyperbolic bessel function of the third kind of order zero (K0) for a vector of real arguments gams c10b1 prec double dvk1.f for hyperbolic bessel function of the third kind of order one (K1) for a vector of real arguments gams c10b1 prec double dvj0.f for the bessel function of the first kind of order zero (J0) for a vector of real arguments gams c10a1 prec double dvj1.f for the bessel function of the first kind of order one (J1) for a vector of real arguments gams c10a1 prec double dvy0.f for the bessel function of the second kind of order zero (Y0) for a vector of real arguments gams c10a1 prec double dvy1.f for the bessel function of the second kind of order one (Y1) for a vector of real arguments gams c10a1 prec double wcs.f for evaluates a chebyshev series for a vector of real arguments gams c3a2 prec single dwcs.f for evaluates a chebyshev series for a vector of real arguments gams c3a2 prec double wutil.f for a collection of low-level vector utilities such as gather/scatter and index compression gams d1a, n prec single dwutil.f for a collection of low-level vector utilities such as gather/scatter and index compression gams d1a, n prec double wferr.f for performs simple error processing for the vfnlib package gams r3 prec single testall.f for exercises all bessel function routines in the vfnlib package providing accuracy and timing comparisions with their fnlib counterparts, which are included in this file. prec single dtestall.f for exercises all bessel function routines in the vfnlib package providing accuracy and timing comparisions with their fnlib counterparts, which are included in this file. prec double paper.ps for Preprint of ACM TOMS 18 (1992) 456-469. size 277 kB readme ----------------------------------------------------------- for Voronoi regions and Delaunay triangulations path: /netlib/voronoi/ ----------------------------------------------------------- 3dn30.gif hull/ sweep2/ for 2-dimensional Voronoi diagram, Delaunay triangulation alg sweepline by Steve Fortune triangle/ for 2D mesh generation, triangulation, and mesh display/printing alg Ruppert's Delaunay refinement by Jonathan Richard Shewchuk gams I2b4a, P, Q size 553kB prec single/double title Triangle / Show Me rel good age research kind command lang C keywords unstructured mesh generation, Delaunay triangulation, Voronoi diagram readme ----------------------------------------------------------- path: /netlib/voronoi/hull/ ----------------------------------------------------------- Makefile README ch.c fg.c hull.c hull.h hullmain.c io.c pointops.c points.h pointsites.h rand.c rsites.c stormacs.h ----------------------------------------------------------- for 2-dimensional Voronoi diagram, Delaunay path: /netlib/voronoi/sweep2/ ----------------------------------------------------------- Makefile defs.h edgelist.c geometry.c heap.c main.c memory.c output.c t voronoi.c voronoi.man ----------------------------------------------------------- for 2D mesh generation, triangulation, and mesh path: /netlib/voronoi/triangle/ ----------------------------------------------------------- A.poly README makefile showme.c triangle.c ----------------------------------------------------------- for sparse linear systems path: /netlib/y12m/ ----------------------------------------------------------- .depend dependencies doc for documentation for the package size 125 kilobytes error makefile y12cck.f y12m y12m.f for solution of linear systems, matrices are large and sparse y12m.lib y12mae.f for sparse matrix, solve one system, single right hand side prec single y12maf.f for sparse matrix, solve one system, single right hand side prec double y12mbe.f y12mbf.f y12mce.f y12mcf.f y12mde.f y12mdf.f y12mfe.f for Solves a large sparse system of linear algebraic equations using Gaussian elimination and sparse matrix techniques. Iterative refinement is applied in order to improve accuracy. gams d2a4 ex/ for test programs # from netlib@ornl.gov try: send index from y12m/ex y12mge.f y12mhe.f ----------------------------------------------------------- for test programs path: /netlib/y12m/ex/ ----------------------------------------------------------- maind.d for output from (y12m/ex/maind.f) maind.f for test program for (y12m/y12mae) maine.f for test program for the (y12m/y12m) package mainf.d mainf.f for test program for (y12m/y12mhe) mainf2.f for test program for the (y12m/y12m) package mainf500.d matrd1.f for auxillary routine needed by (y12m/ex/maind.f) matre1.f for auxillary routine needed by (y12m/ex/maind.f) matrf2.f for auxillary routine needed by (y12m/ex/mainf.f) test1.f for template for (y12m/y12mae) use, user must supply data test2.f for template for (y12m/y12mfe) use, user must supply data