Numerical linear algebra on emerging architectures: The PLASMA and MAGMA projects

Emmanuel Agullo; Jim Demmel; Jack Dongarra; Bilel Hadri; Jakub Kurzak; Julien Langou; Hatem Ltaief; Piotr Luszczek; Stanimire Tomov

doi:10.1088/1742-6596/180/1/012037

Numerical linear algebra on emerging architectures: The PLASMA and MAGMA projects

Emmanuel Agullo
, Jim Demmel
, Jack Dongarra
, Bilel Hadri
, Jakub Kurzak
, Julien Langou
, Hatem Ltaief
, Piotr Luszczek
, Stanimire Tomov

Computer Science and Mathematics Div

Research output: Contribution to journal › Conference article › peer-review

330 Scopus citations

Abstract

The emergence and continuing use of multi-core architectures and graphics processing units require changes in the existing software and sometimes even a redesign of the established algorithms in order to take advantage of now prevailing parallelism. Parallel Linear Algebra for Scalable Multi-core Architectures (PLASMA) and Matrix Algebra on GPU and Multics Architectures (MAGMA) are two projects that aims to achieve high performance and portability across a wide range of multi-core architectures and hybrid systems respectively. We present in this document a comparative study of PLASMA's performance against established linear algebra packages and some preliminary results of MAGMA on hybrid multi-core and GPU systems.

Original language	English
Article number	012037
Journal	Journal of Physics: Conference Series
Volume	180
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/180/1/012037
State	Published - 2009

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abstract = "The emergence and continuing use of multi-core architectures and graphics processing units require changes in the existing software and sometimes even a redesign of the established algorithms in order to take advantage of now prevailing parallelism. Parallel Linear Algebra for Scalable Multi-core Architectures (PLASMA) and Matrix Algebra on GPU and Multics Architectures (MAGMA) are two projects that aims to achieve high performance and portability across a wide range of multi-core architectures and hybrid systems respectively. We present in this document a comparative study of PLASMA's performance against established linear algebra packages and some preliminary results of MAGMA on hybrid multi-core and GPU systems.",

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AU - Kurzak, Jakub

AU - Langou, Julien

AU - Ltaief, Hatem

AU - Luszczek, Piotr

AU - Tomov, Stanimire

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AB - The emergence and continuing use of multi-core architectures and graphics processing units require changes in the existing software and sometimes even a redesign of the established algorithms in order to take advantage of now prevailing parallelism. Parallel Linear Algebra for Scalable Multi-core Architectures (PLASMA) and Matrix Algebra on GPU and Multics Architectures (MAGMA) are two projects that aims to achieve high performance and portability across a wide range of multi-core architectures and hybrid systems respectively. We present in this document a comparative study of PLASMA's performance against established linear algebra packages and some preliminary results of MAGMA on hybrid multi-core and GPU systems.

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JO - Journal of Physics: Conference Series

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Numerical linear algebra on emerging architectures: The PLASMA and MAGMA projects

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