Evaluating Kernels on Xeon Phi to accelerate Gysela
          application

Latu Guillaume; Haefele Matthieu; Bigot Julien; Grandgirard Virginie; Cartier-Michaud Thomas; Rozar Fabien

doi:10.1051/proc/201653013

ESAIM: Proceedings and Surveys (Mar 2016)

Evaluating Kernels on Xeon Phi to accelerate Gysela application

Latu Guillaume,
Haefele Matthieu,
Bigot Julien,
Grandgirard Virginie,
Cartier-Michaud Thomas,
Rozar Fabien

Affiliations

Latu Guillaume: CEA, IRFM
Haefele Matthieu
Bigot Julien: Maison de la Simulation, CEA/CNRS/Inria/Univ. Paris-Sud/Univ. de Versailles
Grandgirard Virginie: CEA, IRFM
Cartier-Michaud Thomas: CEA, IRFM
Rozar Fabien

DOI: https://doi.org/10.1051/proc/201653013
Journal volume & issue: Vol. 53
pp. 211 – 231

Abstract

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This work describes the challenges presented by porting parts of the Gysela code to the Intel Xeon Phi coprocessor, as well as techniques used for optimization, vectorization and tuning that can be applied to other applications. We evaluate the performance of some generic micro-benchmark on Phi versus Intel Sandy Bridge. Several interpolation kernels useful for the Gysela application are analyzed and the performances are shown. Some memory-bound and compute-bound kernels are accelerated by a factor 2 on the Phi device compared to Sandy architecture. Nevertheless, it is hard, if not impossible, to reach a large fraction of the peak performance on the Phi device, especially for real-life applications as Gysela. A collateral benefit of this optimization and tuning work is that the execution time of Gysela (using 4D advections) has decreased on a standard architecture such as Intel Sandy Bridge.

Published in ESAIM: Proceedings and Surveys

ISSN: 2267-3059 (Online)
Publisher: EDP Sciences
Country of publisher: France
LCC subjects: Technology: Technology (General): Industrial engineering. Management engineering: Applied mathematics. Quantitative methods; Science: Mathematics
Website: http://www.esaim-proc.org/

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