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1. Performance and energy analysis of OpenMP runtime systems with dense linear algebra algorithms.

Author

Ferreira Lima, João Vicente, Raïs, Issam, Lefèvre, Laurent, Gautier, Thierry, Mencagli, Gabriele, França, Felipe MG, Bentes, Cristiana Barbosa, Justen Marzulo, Leandro Augusto, Lima Pilla, Mauricio, Wyrzykowski, Roman, and Deelman, Ewa

Subjects

LINEAR algebra, LINEAR systems, COMPILERS (Computer programs), ALGORITHMS, ENERGY consumption, MATHEMATICAL optimization

Abstract

In this article, we analyze performance and energy consumption of five OpenMP runtime systems over a non-uniform memory access (NUMA) platform. We also selected three CPU-level optimizations or techniques to evaluate their impact on the runtime systems: processors features Turbo Boost and C-States, and CPU Dynamic Voltage and Frequency Scaling through Linux CPUFreq governors. We present an experimental study to characterize OpenMP runtime systems on the three main kernels in dense linear algebra algorithms (Cholesky, LU, and QR) in terms of performance and energy consumption. Our experimental results suggest that OpenMP runtime systems can be considered as a new energy leverage, and Turbo Boost, as well as C-States, impacted significantly performance and energy. CPUFreq governors had more impact with Turbo Boost disabled, since both optimizations reduced performance due to CPU thermal limits. An LU factorization with concurrent-write extension from libKOMP achieved up to 63% of performance gain and 29% of energy decrease over original PLASMA algorithm using GNU C compiler (GCC) libGOMP runtime. [ABSTRACT FROM AUTHOR]

Published

2019