X-Git-Url: https://bilbo.iut-bm.univ-fcomte.fr/and/gitweb/interreg4.git/blobdiff_plain/013c93d104bec94042ad7c3675d0810f7013084c..38b9bdbc0a958ce680970c6d4040545c2b71e1bc:/heteropar10/camera_ready/heteropar10.tex?ds=inline diff --git a/heteropar10/camera_ready/heteropar10.tex b/heteropar10/camera_ready/heteropar10.tex index fa91744..f284cc7 100644 --- a/heteropar10/camera_ready/heteropar10.tex +++ b/heteropar10/camera_ready/heteropar10.tex @@ -24,7 +24,7 @@ \author{Raphaël Couturier, David Laiymani and Sébastien Miquée} \authorrunning{R. Couturier, D. Laiymani and S. Miquée} \institute{\vspace{-0.2cm} - University of Franche-Comté \qquad LIFC laboratory\\%[1mm] + University of Franche-Comté \qquad LIFC laboratory\\ IUT Belfort-Montb\'eliard, 2 Rue Engel Gros \\ BP 27 90016 Belfort, France\\\{{\tt raphael.couturier,david.laiymani,sebastien.miquee}\}{\tt @@ -116,24 +116,20 @@ algorithms, AIAC-QM (for \textit{AIAC Quick-quality Map}) and F-EC (for \textit{Farhat Edges-Cuts}) showed an important performances improvement by significantly reducing the application execution time. These experiments were performed by using the fully fault -tolerant JaceP2P-V2 environment, described in next section. -%This Java based platform is an executing and developing -%environment dedicated to the AIAC model. By implementing a distributed -%backup/restore mechanism it is also fully fault -%tolerant\cite{jaceP2P-v2}. -In our previous experiments we did not introduce computing nodes -failures during the computation. As architecture heterogeneity -continually evolves according to computing nodes volatility, we have -to take care more precisely about the heterogeneity of the target -platform. Thus in this paper our main contribution is to propose a new -mapping algorithm called MAHEVE (\textit{Mapping Algorithm for - HEterogeneous and Volatile Environments}). This algorithm -explicitly tackles the heterogeneity issue and introduces a level of -dynamism in order to adapt itself to the fault tolerance -mechanisms. Our experiments show gains up to $65\%$ on application -execution time, with faults during executions, which is about 10 -points better than AIAC-QM and about 25 points better than F-EC, and -MAHEVE also outperforms them in experiments with no fault during executions. +tolerant JaceP2P-V2 environment, described in next section. In our +previous experiments we did not introduce computing nodes failures +during the computation. As architecture heterogeneity continually +evolves according to computing nodes volatility, we have to take care +more precisely about the heterogeneity of the target platform. Thus in +this paper our main contribution is to propose a new mapping algorithm +called MAHEVE (\textit{Mapping Algorithm for HEterogeneous and + Volatile Environments}). This algorithm explicitly tackles the +heterogeneity issue and introduces a level of dynamism in order to +adapt itself to the fault tolerance mechanisms. Our experiments show +gains up to $65\%$ on application execution time, with faults during +executions, which is about 10 points better than AIAC-QM and about 25 +points better than F-EC, and MAHEVE also outperforms them in +experiments with no fault during executions. The rest of this paper is organized as @@ -200,10 +196,6 @@ on the JaceP2P-V2 platform, interested readers can refer to \label{sec:pbmodelapp} -%With the AIAC model, all tasks compute in parallel at the same time, -%without precedence nor synchronization. During an iteration, each task -%computes its job and sends its results to its neighbors, and -%immediately starts the next iteration. The TIG\cite{tig1} (\textit{Task Interaction Graph}) model is the most appropriate to our problem, as it only models relationships between tasks. In this model, all the tasks are considered simultaneously