Classical list scheduling is a very popular and efficient technique for scheduling jobs for parallel and distributed platforms. It is inherently centralized. However, with the increasing number of processors, the cost for managing a single centralized list becomes too prohibitive. A suitable approach to reduce the contention is to distribute the list among the computational units: each processor only has a local view of the work to execute. Thus, the scheduler is no longer greedy and standard performance guarantees are lost. The objective of this work is to study the extra cost that must be paid when the list is distributed among the computational units. We first present a general methodology for computing the expected makespan based on the...
We present complexity results which have influence on the strength of list scheduling in a parallel ...
AbstractWe analyze random allocation applied to irregular and dynamic task-parallel programs such as...
AbstractThis paper introduces a new list scheduling algorithm that uses greedy duplication to solve ...
International audienceClassical list scheduling is a very popular and efficient technique for schedu...
International audienceClassical list scheduling is a very popular and efficient technique for schedu...
International audienceClassical list scheduling is a very popular and efficient technique for schedu...
Classical list scheduling is a very popular and efficient technique for scheduling jobs in parallel ...
Classical list scheduling is a very popular and efficient technique for scheduling jobs in parallel ...
International audienceClassical list scheduling is a very popular and efficient technique for schedu...
International audienceClassical list scheduling is a very popular and efficient technique for schedu...
We consider the problem of scheduling n jobs on m identical parallel machines to minimize a regular ...
We consider the NP-hard problem of scheduling parallel jobs with release dates on identical parallel...
We present complexity results which have influence on the strength of list scheduling in a parallel ...
We present complexity results which have influence on the strength of list scheduling in a parallel ...
Communicated by Susumu Matsumae This paper studies task scheduling algorithms which schedule a set o...
We present complexity results which have influence on the strength of list scheduling in a parallel ...
AbstractWe analyze random allocation applied to irregular and dynamic task-parallel programs such as...
AbstractThis paper introduces a new list scheduling algorithm that uses greedy duplication to solve ...
International audienceClassical list scheduling is a very popular and efficient technique for schedu...
International audienceClassical list scheduling is a very popular and efficient technique for schedu...
International audienceClassical list scheduling is a very popular and efficient technique for schedu...
Classical list scheduling is a very popular and efficient technique for scheduling jobs in parallel ...
Classical list scheduling is a very popular and efficient technique for scheduling jobs in parallel ...
International audienceClassical list scheduling is a very popular and efficient technique for schedu...
International audienceClassical list scheduling is a very popular and efficient technique for schedu...
We consider the problem of scheduling n jobs on m identical parallel machines to minimize a regular ...
We consider the NP-hard problem of scheduling parallel jobs with release dates on identical parallel...
We present complexity results which have influence on the strength of list scheduling in a parallel ...
We present complexity results which have influence on the strength of list scheduling in a parallel ...
Communicated by Susumu Matsumae This paper studies task scheduling algorithms which schedule a set o...
We present complexity results which have influence on the strength of list scheduling in a parallel ...
AbstractWe analyze random allocation applied to irregular and dynamic task-parallel programs such as...
AbstractThis paper introduces a new list scheduling algorithm that uses greedy duplication to solve ...