X-Git-Url: https://bilbo.iut-bm.univ-fcomte.fr/and/gitweb/hpcc2014.git/blobdiff_plain/3508230e964200878bde87222c8afd8d031903d8..7c13e863b8fb839dcd1bfd2ae4e76db730f5c130:/hpcc.tex?ds=sidebyside diff --git a/hpcc.tex b/hpcc.tex index a2c8642..d5be4d4 100644 --- a/hpcc.tex +++ b/hpcc.tex @@ -152,7 +152,7 @@ SimGrid toolkit~\cite{SimGrid}). Second, we confirm the effectiveness of asynchronous mode algorithms by comparing their performance with the synchronous mode. More precisely, we had implemented a program for solving large non-symmetric linear system of equations by numerical method GMRES (Generalized -Minimal Residual) []\AG[]{[]?}\LZK[]{~\cite{ref1}}.\LZK{Problème traité dans le papier est symétrique ou asymétrique? (Poisson 3D symétrique?)} We show, that with minor modifications of the +Minimal Residual) []\AG[]{[]?}\LZK[]{\cite{ref1}}.\LZK{Problème traité dans le papier est symétrique ou asymétrique? (Poisson 3D symétrique?)} We show, that with minor modifications of the initial MPI code, the SimGrid toolkit allows us to perform a test campaign of a real AIAC application on different computing architectures. The simulated results we obtained are in line with real results exposed in ??\AG[]{??}.