git repository to experiment about a BLASFEO-based PLASMA version
BLASFEO - BLAS For Embedded Optimization
BLASFEO provides a set of basic linear algebra routines, performance-optimized for matrices fitting in cache (i.e. generally up to a couple hundreds size in each dimension), as typically encountered in embedded optimization applications.
https://github.com/giaf/blasfeo.git
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Parallel Linear Algebra Software for Multicore Architectures
University of Tennessee (US)
University of Manchester (UK)
[TOC]
PLASMA is a software package for solving problems in dense linear algebra using multicore processors and Xeon Phi coprocessors. PLASMA provides implementations of state-of-the-art algorithms using cutting-edge task scheduling techniques. PLASMA currently offers a collection of routines for solving linear systems of equations, least squares problems, eigenvalue problems, and singular value problems.
PLASMA is in the process of porting from QUARK to OpenMP. At the same time, it is moving from its ICL SVN repository to this Bitbucket Mercurial repository. The content of this repository reflects the progress of the transition. Before the transition is complete, the last release of the old PLASMA is available here: https://bitbucket.org/icl/plasma/downloads/plasma-2.8.tar.gz
Doxygen-generated PLASMA documentation is available at: http://icl.bitbucket.io/plasma/
To get assistance with PLASMA, join the PLASMA User Google group by going to
https://groups.google.com/a/icl.utk.edu/forum/#!forum/plasma-user and clicking
Apply to join group
.
Then email your questions and comments to plasma-user@icl.utk.edu
.
Feel free to use the following publications to reference PLASMA:
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Asim YarKhan, Jakub Kurzak, Piotr Luszczek, Jack Dongarra, Porting the PLASMA Numerical Library to the OpenMP Standard, International Journal of Parallel Programming, First Online: 14 June 2016.
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Simplice Donfack, Jack Dongarra, Mathieu Faverge, Mark Gates, Jakub Kurzak, Piotr Luszczek, Ichitaro Yamazaki, A survey of recent developments in parallel implementations of Gaussian elimination, Concurrency and Computation: Practice and Experience, Volume 27, Issue 5, April 2015, Pages 1292–1309.
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Azzam Haidar, Jakub Kurzak, Piotr Luszczek, An improved parallel singular value algorithm and its implementation for multicore hardware, Proceedings of the International Conference on High Performance Computing, Networking, Storage and Analysis Article No. 90, ACM, 2013.
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Jakub Kurzak, Hatem Ltaief, Jack Dongarra, Rosa M. Badia, Scheduling dense linear algebra operations on multicore processors, Concurrency and Computation: Practice and Experience, Volume 22, Issue 1, January 2010, Pages 15–44.
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Alfredo Buttari, Julien Langou, Jakub Kurzak, Jack Dongarra, A class of parallel tiled linear algebra algorithms for multicore architectures, Parallel Computing, Volume 35, Issue 1, January 2009, Pages 38–53.
Primary funding for PLASMA was provided by NSF grants:
- CPA-ACR-T: PLASMA: Parallel Linear Algebra Software for Multiprocessor Architectures,
- Collaborative CPA-ACR-T: PLASMA: Parallel Linear Algebra Software for Multiprocessor Architectures.
Work on PLASMA was also partially funded by NSF grants:
- SI2-SSI: Collaborative Research: Sustained Innovation for Linear Algebra Software (SILAS),
- SHF: Small: Empirical Autotuning of Parallel Computation for Scalable Hybrid Systems (a.k.a. DARE).
Currently, PLASMA is being developed in collaboration with European Commission funded Horizon 2020 projects:
- NLAFET: Parallel Numerical Linear Algebra for Future Extreme Scale Systems, Grant Agreement no. 671633,
- INTERTWinE: Programming Model INTERoperability ToWards Exascale, Grant Agreement no. 671602,
and an EPSRC funded project
- SERT: Scale-free, Energy-aware, Resilient and Transparent Adaptation of CSE Applications to Mega-core Systems, EPSRC Reference: EP/M01147X/1.
Additional funding was provided by the following companies:
- Intel Corporation,
- Advanced Micro Devices,
- The MathWorks,
- Fujitsu.
The following people contributed to the development of PLASMA:
- Maksims Abalenkovs
- Emmanuel Agullo
- Wesley Alvaro
- Dulceneia Becker
- Alfredo Buttari
- Jack Dongarra
- Joseph Dorris
- Mathieu Faverge
- Mark Gates
- Fred Gustavson
- Bilel Hadri
- Azzam Haidar
- Blake Haugen
- Vijay Joshi
- Bo Kågström
- Lars Karlsson
- Jakub Kurzak
- Julien Langou
- Julie Langou
- Hatem Ltaief
- Piotr Luszczek
- Samuel Relton
- Jakub Sistek
- Stanimire Tomov
- Pedro Valero Lara
- Ichitaro Yamazaki
- Asim YarKhan
- Mawussi Zounon
-- Innovative Computing Laboratory
-- University of Tennessee
-- (C) Copyright 2008-2017
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modification, are permitted provided that the following conditions
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