23-04-2014bb

diff --git a/hpcc.tex b/hpcc.tex
index a2c8642a6a43dae13b3c3d88ee164b579b61143a..d5be4d4a66656b4886a241b2d15162cb0b6ac4a6 100644 (file)
--- 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
 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[]{??}.
 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[]{??}.