2- Mis en commentaire des \label=overflow deja dqns les styles
13 files changed:
-%\documentclass[conference]{IEEEtran}
\documentclass[times]{cpeauth}
\usepackage{moreverb}
\documentclass[times]{cpeauth}
\usepackage{moreverb}
iterations of classical GMRES for a given input matrix size; it is not
the case for the multisplitting method.
iterations of classical GMRES for a given input matrix size; it is not
the case for the multisplitting method.
-%%\begin{wrapfigure}{l}{60mm}
+%\begin{wrapfigure}{l}{60mm}
\begin{figure} [ht!]
\centering
\begin{figure} [ht!]
\centering
-\includegraphics[width=60mm]{"Cluster x Nodes NX=150 and NX=170".JPG}
-\caption{Cluster x Nodes NX=150 and NX=170 \label{overflow}}
+\includegraphics[width=60mm]{cluster_x_nodes_nx_150_and_nx_170.pdf}
+\caption{Cluster x Nodes NX=150 and NX=170}
+%\label{overflow}}
Unless the 8x8 cluster, the time
execution difference between the two algorithms is important when
Unless the 8x8 cluster, the time
execution difference between the two algorithms is important when
%\RCE{idem pour tous les tableaux de donnees}
%\RCE{idem pour tous les tableaux de donnees}
+%\begin{wrapfigure}{l}{60mm}
\begin{figure} [ht!]
\centering
\begin{figure} [ht!]
\centering
-\includegraphics[width=60mm]{"Cluster x Nodes N1 x N2".JPG}
-\caption{Cluster x Nodes N1 x N2\label{overflow}}
+\includegraphics[width=60mm]{cluster_x_nodes_n1_x_n2.pdf}
+\caption{Cluster x Nodes N1 x N2}
+%\label{overflow}}
The experiments compare the behavior of the algorithms running first on
speed inter- cluster network (N1) and a less performant network (N2).
The experiments compare the behavior of the algorithms running first on
speed inter- cluster network (N1) and a less performant network (N2).
\begin{figure} [ht!]
\centering
\begin{figure} [ht!]
\centering
-\includegraphics[width=60mm]{"Network latency impact on execution time".JPG}
-\caption{Network latency impact on execution time\label{overflow}}
+\includegraphics[width=60mm]{network_latency_impact_on_execution_time.pdf}
+\caption{Network latency impact on execution time}
+%\label{overflow}}
\begin{figure} [ht!]
\centering
\begin{figure} [ht!]
\centering
-\includegraphics[width=60mm]{"Network bandwith impact on execution time".JPG}
-\caption{Network bandwith impact on execution time\label{overflow}}
+\includegraphics[width=60mm]{network_bandwith_impact_on_execution_time.pdf}
+\caption{Network bandwith impact on execution time}
+%\label{overflow}
\begin{figure} [ht!]
\centering
\begin{figure} [ht!]
\centering
-\includegraphics[width=60mm]{"Pb size impact on execution time".JPG}
-\caption{Pb size impact on execution time\label{overflow}}
+\includegraphics[width=60mm]{pb_size_impact_on_execution_time.pdf}
+\caption{Pb size impact on execution time}
+%\label{overflow}}
\end{figure}
In this experimentation, the input matrix size has been set from
\end{figure}
In this experimentation, the input matrix size has been set from
\begin{figure} [ht!]
\centering
\begin{figure} [ht!]
\centering
-\includegraphics[width=60mm]{"CPU Power impact on execution time".JPG}
-\caption{CPU Power impact on execution time\label{overflow}}
+\includegraphics[width=60mm]{cpu_power_impact_on_execution_time.pdf}
+\caption{CPU Power impact on execution time}
+%\label{overflow}}
\end{figure}
Using the SIMGRID simulator flexibility, we have tried to determine the
\end{figure}
Using the SIMGRID simulator flexibility, we have tried to determine the