ScaLAPACK: A Portable Linear Algebra Library for Distributed Memory Computers - Design Issues and Performance

Author

Blackford, L.S. ; Choi, J. ; Cleary, A. ; Demmel, J. ; Dhillon, I. ; Dongarra, Jack ; Hammarling, S. ; Henry, G. ; Petitet, A. ; Stanley, K. ; Walker, D. ; Whaley, R.C.

Author_Institution

University of Tennessee, Knoxville, TN

fYear

1996

fDate

1996

Firstpage

5

Lastpage

5

Abstract

This paper outlines the content and performance of ScaLAPACK, a collection of mathematical software for linear algebra computations on distributed memory computers. The importance of developing standards for computational and message passing interfaces is discussed. We present the different components and building blocks of ScaLAPACK, and indicate the difficulties inherent in producing correct codes for networks of heterogeneous processors. Finally, this paper briefly describes future directions for the ScaLAPACK library and concludes by suggesting alternative approaches to mathematical libraries, explaining how ScaLAPACK could be integrated into efficient and user-friendly distributed systems.

Keywords

math libraries; numerical linear algebra; parallel computing; Computer science; Contracts; Distributed computing; Laboratories; Least squares methods; Libraries; Linear algebra; Portable computers; Software performance; Standards development; math libraries; numerical linear algebra; parallel computing;

fLanguage

English

Publisher

ieee

Conference_Titel

Supercomputing, 1996. Proceedings of the 1996 ACM/IEEE Conference on

Print_ISBN

0-89791-854-1

Type

conf

DOI

10.1109/SUPERC.1996.183513

Filename

1392882