%0 Conference Paper
%A Leger, Raphael
%A Alvarez Mallon, Damian
%A Duran, Alejandro
%A Lanteri, Stephane
%T Adapting a Finite-Element Type Solver for Bioelectromagnetics to the DEEP-ER Platform
%V 27
%I IOS Press Ebooks
%M FZJ-2016-02415
%B Advances in Parallel Computing
%P 349 - 359
%D 2016
%< Parallel Computing: On the Road to Exascale
%X In this paper, we report on our recent efforts towards adapting a Discontinuous Galerkin Time-Domain solver for computational bioelectromagnetics to the novel, heterogeneous architecture proposed in the DEEP-ER european project on exascale computing. This architecture is based on the Cluster/Booster division concept which will be recalled. As a first step, we summarize the key features of the application and present the outcomes of a profiling of the code using the tools developed by DEEP-ER partners. We then go through the subsequent general improvements of the application as well as specific developments aimed at exploiting efficiently the DEEP-ER platform. This particularly includes porting the application to the Intel®Many Integrated Core Architecture. We conclude with an outlook on next steps, including the different Cluster/Booster division strategies.
%B International Conference on Parallel Computing 2015
%C 1 Sep 2015 - 4 Sep 2015, Edinburgh (UK)
Y2 1 Sep 2015 - 4 Sep 2015
M2 Edinburgh, UK
%F PUB:(DE-HGF)8 ; PUB:(DE-HGF)7
%9 Contribution to a conference proceedingsContribution to a book
%U <Go to ISI:>//WOS:000578348400035
%R 10.3233/978-1-61499-621-7-349
%U https://juser.fz-juelich.de/record/808799