X-Git-Url: https://bilbo.iut-bm.univ-fcomte.fr/and/gitweb/mpi-energy2.git/blobdiff_plain/14b3981e4f8d2cde32440e666efcaa11e3cc7708..9d2225d40f597fdd972327c718ddc6aebc302ebb:/Heter_paper.tex diff --git a/Heter_paper.tex b/Heter_paper.tex index 755cef7..a569aaa 100644 --- a/Heter_paper.tex +++ b/Heter_paper.tex @@ -391,9 +391,25 @@ called in the MPI program. \section{Experimental results} \label{sec.expe} -The experiments of this work are executed on the simulator Simgrid/SMPI v3.10. We configure the simulator to use a heterogeneous cluster -with one core per node. The proposed heterogeneous cluster has four different types of nodes. Each node in cluster has different characteristics -such as the maximum frequency speed, the number of available frequencies and dynamic and static powers values, see table (\ref{table:platform}). These different types of processing nodes simulate some real Intel processors. The maximum number of nodes that supported by the cluster is 144 nodes according to characteristics of some MPI programs of the NAS benchmarks that used. We are use the same number from each type of nodes when running the MPI programs, for example if we execute the program on 8 node, there are 2 nodes from each type participating in the computing. The dynamic and static power values is different from one type to other. Each node has a dynamic and static power values proportional to their performance/GFlops, for more details see the Intel data sheets in \cite{47}. Each node has a percentage of 80\% for dynamic power and 20\% for static power from the hole power consumption, the same assumption is made in \cite{45,3}. These nodes are connected via an ethernet network with 1 Gbit/s bandwidth. + +The experiments of this work are executed on the simulator Simgrid/SMPI +v3.10~\cite{casanova+giersch+legrand+al.2014.versatile}. We configure the +simulator to use a heterogeneous cluster with one core per node. The proposed +heterogeneous cluster has four different types of nodes. Each node in cluster +has different characteristics such as the maximum frequency speed, the number of +available frequencies and dynamic and static powers values, see table +(\ref{table:platform}). These different types of processing nodes simulate some +real Intel processors. The maximum number of nodes that supported by the cluster +is 144 nodes according to characteristics of some MPI programs of the NAS +benchmarks that used. We are use the same number from each type of nodes when +running the MPI programs, for example if we execute the program on 8 node, there +are 2 nodes from each type participating in the computing. The dynamic and +static power values is different from one type to other. Each node has a dynamic +and static power values proportional to their performance/GFlops, for more +details see the Intel data sheets in \cite{47}. Each node has a percentage of +80\% for dynamic power and 20\% for static power from the hole power +consumption, the same assumption is made in \cite{45,3}. These nodes are +connected via an ethernet network with 1 Gbit/s bandwidth. \begin{table}[htb] \caption{Heterogeneous nodes characteristics} % title of Table