Abstract: Computational grids promise to deliver a vast computer power as transparently as the electric power grid supplies electricity. Thus, applications need to be automatically and transparently deployed on grids, in particular MPI parallel applications. However, deploying such applications on a grid is complex: the user must select compute nodes manually, launch processes on distributed, heterogeneous nodes, and configure the MPI library so it can adapt to its grid environment. Our objective is to hide the complexity of application deployment on computational grids. This paper proposes a software archi-tecture designed to automatically deploy MPI applications on a grid. It also introduces a description and packaging model of MPI applic...
The Message Passing Interface (MPI) is a standard in parallel computing, and can also be used as a h...
Institutional grids consist of the aggregation of clusters belonging to different administrative dom...
International audienceComputational grids present promising computational and storage capacities. Th...
Computational grids promise to deliver a vast computer power as transparently as the electric power ...
Computational grids allow access to several computing resources interconnected in a distributed hete...
Application development for high-performance distributed computing systems, or computational grids a...
The Computational Grid appears to have the potential to become an important and powerful computing p...
Large Grids are build by aggregating smaller parallel machines through a public long-distance interc...
Application development for high-performance distributed computing systems, or computational grids a...
Computational grids promise to deliver a huge computer power as transparently as the electric power ...
Grids as infrastructures offer access to computing, storage and other resources in a transparent way...
Programming non-embarrassingly parallel scientific computing applications such as those involving th...
The Message Passing Interface (MPI) is a standard in parallel computing, and can also be used as a h...
Institutional grids consist of the aggregation of clusters belonging to different administrative dom...
International audienceComputational grids present promising computational and storage capacities. Th...
Computational grids promise to deliver a vast computer power as transparently as the electric power ...
Computational grids allow access to several computing resources interconnected in a distributed hete...
Application development for high-performance distributed computing systems, or computational grids a...
The Computational Grid appears to have the potential to become an important and powerful computing p...
Large Grids are build by aggregating smaller parallel machines through a public long-distance interc...
Application development for high-performance distributed computing systems, or computational grids a...
Computational grids promise to deliver a huge computer power as transparently as the electric power ...
Grids as infrastructures offer access to computing, storage and other resources in a transparent way...
Programming non-embarrassingly parallel scientific computing applications such as those involving th...
The Message Passing Interface (MPI) is a standard in parallel computing, and can also be used as a h...
Institutional grids consist of the aggregation of clusters belonging to different administrative dom...
International audienceComputational grids present promising computational and storage capacities. Th...