International audienceVolunteer computing uses the free resources in Internet and Intranet environments for large-scale computation and storage. Currently, 70 applications use over 12 PetaFLOPS of computing power from such platforms. However, these platforms are currently limited to embarrassingly parallel applications. In an effort to broaden the set of applications that can leverage volunteer computing, we focus on the problem of predicting if a group of resources will be continuously available for a relatively long time period. Ensuring the collective availability of volunteer resources is challenging due to their inherent volatility and autonomy. Collective availability is important for enabling parallel applications and workflows on vo...
User connectivity patterns in network applications are known to be heterogeneous and to follow perio...
International audienceIn the age of cloud, Grid, P2P, and volunteer distributed computing, large-sca...
Fine-Grained Cycle Sharing (FGCS) systems aim at utilizing the large amount of computational resourc...
International audienceVolunteer computing uses the free resources in Internet and Intranet environme...
Volunteer computing systems are large-scale distributed systems with large number of heterogeneous a...
Abstract. Increasingly services are being deployed over large-scale com-putational and storage infra...
International audienceIncreasingly services are being deployed over large-scale computational and st...
Volunteer-based grid computing resources are characteristically volatile and frequently become unava...
Currently deployed grids gather together thousands of computational and storage resources for the be...
Abstract:- Volunteer computing uses computational resources that would otherwise be unused, to solve...
Fine-grained cycle sharing (FGCS) systems aim at utilizing the large amount of computational resourc...
This paper has been submitted to the Grid'2007 conference.Currently deployed grids gather together t...
Fine-Grained Cycle Sharing (FGCS) systems aim at utilizing the large amount of computational resourc...
Loosely-coupled distributed systems have significant scale and cost advantages over more traditional...
Characterizing, analysis and modelling resources availability in volunteer computing systems is beco...
User connectivity patterns in network applications are known to be heterogeneous and to follow perio...
International audienceIn the age of cloud, Grid, P2P, and volunteer distributed computing, large-sca...
Fine-Grained Cycle Sharing (FGCS) systems aim at utilizing the large amount of computational resourc...
International audienceVolunteer computing uses the free resources in Internet and Intranet environme...
Volunteer computing systems are large-scale distributed systems with large number of heterogeneous a...
Abstract. Increasingly services are being deployed over large-scale com-putational and storage infra...
International audienceIncreasingly services are being deployed over large-scale computational and st...
Volunteer-based grid computing resources are characteristically volatile and frequently become unava...
Currently deployed grids gather together thousands of computational and storage resources for the be...
Abstract:- Volunteer computing uses computational resources that would otherwise be unused, to solve...
Fine-grained cycle sharing (FGCS) systems aim at utilizing the large amount of computational resourc...
This paper has been submitted to the Grid'2007 conference.Currently deployed grids gather together t...
Fine-Grained Cycle Sharing (FGCS) systems aim at utilizing the large amount of computational resourc...
Loosely-coupled distributed systems have significant scale and cost advantages over more traditional...
Characterizing, analysis and modelling resources availability in volunteer computing systems is beco...
User connectivity patterns in network applications are known to be heterogeneous and to follow perio...
International audienceIn the age of cloud, Grid, P2P, and volunteer distributed computing, large-sca...
Fine-Grained Cycle Sharing (FGCS) systems aim at utilizing the large amount of computational resourc...