X-Git-Url: https://bilbo.iut-bm.univ-fcomte.fr/and/gitweb/hpcc2014.git/blobdiff_plain/e2e7a96acea66b3045f222a94ec5aae79894fe3d..79daec76a811fc9c448ca8880c7eae6889ffaa60:/hpcc.tex?ds=sidebyside diff --git a/hpcc.tex b/hpcc.tex index 318a85e..31a6964 100644 --- a/hpcc.tex +++ b/hpcc.tex @@ -476,15 +476,14 @@ study that the results depend on the following parameters: \item Hosts processors power (GFlops) can also influence on the results. \item Finally, when submitting job batches for execution, the arguments values passed to the program like the maximum number of iterations or the precision are critical. They allow us to ensure not only the convergence of the - algorithm but also to get the main objective in getting an execution time in asynchronous communication less than in - synchronous mode. The ratio between the simulated execution time of synchronous GMRES algorithm - compared to the asynchronous multisplitting algorithm ($t_\text{GMRES} / t_\text{Multisplitting}$) is defined as the \emph{relative gain}. So, - our objective running the algorithm in SimGrid is to obtain a relative gain - greater than 1. -\end{itemize} + algorithm but also to get the main objective in getting an execution time with the asynchronous multisplitting less than with synchronous GMRES. + \end{itemize} +The ratio between the simulated execution time of synchronous GMRES algorithm +compared to the asynchronous multisplitting algorithm ($t_\text{GMRES} / t_\text{Multisplitting}$) is defined as the \emph{relative gain}. So, +our objective running the algorithm in SimGrid is to obtain a relative gain greater than 1. A priori, obtaining a relative gain greater than 1 would be difficult in a local -area network configuration where the synchronous mode will take advantage on the +area network configuration where the synchronous GMRES method will take advantage on the rapid exchange of information on such high-speed links. Thus, the methodology adopted was to launch the application on a clustered network. In this configuration, degrading the inter-cluster network performance will penalize the @@ -660,7 +659,7 @@ the results have given a relative gain more than 2.5, showing the effectiveness asynchronous performance compared to the synchronous mode. With these settings, Table~\ref{tab.cluster.2x50} shows -that after a deterioration of inter cluster network with a bandwidth of \np[Mbit/s]{5} and a latency in order of one hundredth of millisecond and a processor power +that after setting the bandwidth of the inter cluster network to \np[Mbit/s]{5} and a latency in order of one hundredth of millisecond and a processor power of one GFlops, an efficiency of about \np[\%]{40} is obtained in asynchronous mode for a matrix size of 62 elements. It is noticed that the result remains stable even we vary the residual error precision from \np{E-5} to \np{E-9}. By