Part 1: Algorithms, Scheduling, Analysis, and Data MiningInternational audienceMany-Task Computing (MTC) is a widely used computing paradigm for large-scale task-parallel processing. One of the key issues in MTC is to schedule a large number of independent tasks onto heterogeneous resources. Traditional task-level scheduling heuristics, like Min-Min, Sufferage and MaxStd, cannot readily be applied in this scenario. As most of MTC tasks are usually fine-grained, the resource management overhead would be prominent and the multi-core nodes might become hard to be fully utilized. In this paper we propose an application-level scheduling with task bundling approach that utilizes the knowledge of both applications and tasks to overcome these diffi...
The computing and communication resources of high performance computing systems are becoming heterog...
National audienceEffective scheduling is crucial for task-based applications to achieve high perform...
In this paper we present an Integer Linear Programming (ILP) formulation and two non-iterative heuri...
Many-Task Computing (MTC) is a widely used computing paradigm for large-scale task-parallel processi...
Many-task computing (MTC) is a widely used computing paradigm for complex scientific applications, w...
There is a very important class of applications which is named Many-Task Computing (MTC). For a lot ...
Efficient application scheduling is critical for achieving high performance in heterogeneous computi...
Many-task computing (MTC) is a computing paradigm widely used in scientific area. Each MTC job consi...
Recent emerging applications from a wide range of scientific domains often require a very large numb...
(eng) Mixed-parallelism, the combination of data- and task-parallelism, is a powerful way of increas...
International audienceScheduling problems are already difficult on traditional parallel machines, an...
International audienceMultiple applications that execute concurrently on heterogeneous platforms com...
Aim: Our research aims to explore a fast and efficient scheduling algorithm. The purpose is to sched...
The era of manycore computing will bring new fundamental challenges that the techniques designed for...
Computer architecture technology is moving towards more heteroge-neous solutions, which will contain...
The computing and communication resources of high performance computing systems are becoming heterog...
National audienceEffective scheduling is crucial for task-based applications to achieve high perform...
In this paper we present an Integer Linear Programming (ILP) formulation and two non-iterative heuri...
Many-Task Computing (MTC) is a widely used computing paradigm for large-scale task-parallel processi...
Many-task computing (MTC) is a widely used computing paradigm for complex scientific applications, w...
There is a very important class of applications which is named Many-Task Computing (MTC). For a lot ...
Efficient application scheduling is critical for achieving high performance in heterogeneous computi...
Many-task computing (MTC) is a computing paradigm widely used in scientific area. Each MTC job consi...
Recent emerging applications from a wide range of scientific domains often require a very large numb...
(eng) Mixed-parallelism, the combination of data- and task-parallelism, is a powerful way of increas...
International audienceScheduling problems are already difficult on traditional parallel machines, an...
International audienceMultiple applications that execute concurrently on heterogeneous platforms com...
Aim: Our research aims to explore a fast and efficient scheduling algorithm. The purpose is to sched...
The era of manycore computing will bring new fundamental challenges that the techniques designed for...
Computer architecture technology is moving towards more heteroge-neous solutions, which will contain...
The computing and communication resources of high performance computing systems are becoming heterog...
National audienceEffective scheduling is crucial for task-based applications to achieve high perform...
In this paper we present an Integer Linear Programming (ILP) formulation and two non-iterative heuri...