Platforms that comprise volatile processors, such as desktop grids, have been traditionally used for executing independent-task applications. In this work we study the scheduling of tightly-coupled iterative master-worker applications onto volatile processors. The main challenge is that workers must be simultaneously available for the application to make progress. We consider two additional complications: one should take into account that workers can become temporarily reclaimed and, for data-intensive applications, one should account for the limited bandwidth between the master and the workers. In this context, our first contribution is a theoretical study of the scheduling problem in its off-line version, i.e., when processor availability...
Recently, the benefits of co-scheduling several applications have been demonstrated in a fault-free ...
International audienceWe study the resilient scheduling of moldable parallel jobs on high-performanc...
International audienceThis paper focuses on the resilient scheduling of parallel jobs on high-perfor...
International audiencePlatforms that comprise volatile processors, such as desktop grids, have been ...
International audiencePlatforms that comprise volatile processors, such as desktop grids, have been ...
International audienceIn this paper, we study the execution of iterative applications on volatile pr...
Platforms that comprise volatile processors, such as desktop grids, have been traditionally used for...
In this paper we study the execution of iterative applications on volatile processors such as those ...
In this report we describe a greedy algorithm to schedule parallel jobs that consist of independent,...
International audienceIn this work, we consider the execution of applications on desktop grids. Such...
The key to providing high performance and energy-efficient execution for hard real-time applications...
© 2017 Springer Science+Business Media New York We consider the problem of scheduling a number of jo...
International audienceMulti-core systems are increasingly interesting candidates for executing paral...
The computing and communication resources of high performance computing systems are becoming heterog...
International audienceApplications implemented on critical systems are subject to both safety critic...
Recently, the benefits of co-scheduling several applications have been demonstrated in a fault-free ...
International audienceWe study the resilient scheduling of moldable parallel jobs on high-performanc...
International audienceThis paper focuses on the resilient scheduling of parallel jobs on high-perfor...
International audiencePlatforms that comprise volatile processors, such as desktop grids, have been ...
International audiencePlatforms that comprise volatile processors, such as desktop grids, have been ...
International audienceIn this paper, we study the execution of iterative applications on volatile pr...
Platforms that comprise volatile processors, such as desktop grids, have been traditionally used for...
In this paper we study the execution of iterative applications on volatile processors such as those ...
In this report we describe a greedy algorithm to schedule parallel jobs that consist of independent,...
International audienceIn this work, we consider the execution of applications on desktop grids. Such...
The key to providing high performance and energy-efficient execution for hard real-time applications...
© 2017 Springer Science+Business Media New York We consider the problem of scheduling a number of jo...
International audienceMulti-core systems are increasingly interesting candidates for executing paral...
The computing and communication resources of high performance computing systems are becoming heterog...
International audienceApplications implemented on critical systems are subject to both safety critic...
Recently, the benefits of co-scheduling several applications have been demonstrated in a fault-free ...
International audienceWe study the resilient scheduling of moldable parallel jobs on high-performanc...
International audienceThis paper focuses on the resilient scheduling of parallel jobs on high-perfor...