Mathematical Software (TOMS)


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ACM Transactions on Mathematical Software (TOMS) - Special issue on the Advanced CompuTational Software (ACTS) Collection, Volume 31 Issue 3, September 2005

Introduction to the special issue on the Advanced CompuTational Software (ACTS) collection
Ronald F. Boisvert, L. A. Drummond, Osni A. Marques
Pages: 281-281
DOI: 10.1145/1089014.1089015

An overview of the Advanced CompuTational Software (ACTS) collection
L. A. Drummond, O. A. Marques
Pages: 282-301
DOI: 10.1145/1089014.1089016
The ACTS Collection brings together a number of general-purpose computational tools that were developed by independent research projects mostly funded and supported by the U.S. Department of Energy. These tools tackle a number of common computational...

An overview of SuperLU: Algorithms, implementation, and user interface
Xiaoye S. Li
Pages: 302-325
DOI: 10.1145/1089014.1089017
We give an overview of the algorithms, design philosophy, and implementation techniques in the software SuperLU, for solving sparse unsymmetric linear systems. In particular, we highlight the differences between the sequential SuperLU (including its...

Pursuing scalability for hypre's conceptual interfaces
Robert D. Falgout, Jim E. Jones, Ulrike Meier Yang
Pages: 326-350
DOI: 10.1145/1089014.1089018
The software library hypre provides high-performance preconditioners and solvers for the solution of large, sparse linear systems on massively parallel computers as well as conceptual interfaces that allow users to access the library in the...

SLEPc: A scalable and flexible toolkit for the solution of eigenvalue problems
Vicente Hernandez, Jose E. Roman, Vicente Vidal
Pages: 351-362
DOI: 10.1145/1089014.1089019
The Scalable Library for Eigenvalue Problem Computations (SLEPc) is a software library for computing a few eigenvalues and associated eigenvectors of a large sparse matrix or matrix pencil. It has been developed on top of PETSc and enforces the same...

SUNDIALS: Suite of nonlinear and differential/algebraic equation solvers
Alan C. Hindmarsh, Peter N. Brown, Keith E. Grant, Steven L. Lee, Radu Serban, Dan E. Shumaker, Carol S. Woodward
Pages: 363-396
DOI: 10.1145/1089014.1089020
SUNDIALS is a suite of advanced computational codes for solving large-scale problems that can be modeled as a system of nonlinear algebraic equations, or as initial-value problems in ordinary differential or differential-algebraic equations. The...

An overview of the Trilinos project
Michael A. Heroux, Roscoe A. Bartlett, Vicki E. Howle, Robert J. Hoekstra, Jonathan J. Hu, Tamara G. Kolda, Richard B. Lehoucq, Kevin R. Long, Roger P. Pawlowski, Eric T. Phipps, Andrew G. Salinger, Heidi K. Thornquist, Ray S. Tuminaro, James M. Willenbring, Alan Williams, Kendall S. Stanley
Pages: 397-423
DOI: 10.1145/1089014.1089021
The Trilinos Project is an effort to facilitate the design, development, integration, and ongoing support of mathematical software libraries within an object-oriented framework for the solution of large-scale, complex multiphysics engineering and...