We study the problem of one-dimensional partitioning of nonuniform workload arrays, with optimal load balancing for heterogeneous systems. We look at two cases: chain-on-chain partitioning, where the order of the processors is specified, and chain partitioning, where processor permutation is allowed. We present polynomial time algorithms to solve the chain-on-chain partitioning problem optimally, while we prove that the chain partitioning problem is NP-complete. Our empirical studies show that our proposed exact algorithms produce substantially better results than heuristics, while solution times remain comparable. © 2008 Elsevier Inc. All rights reserved
2012 IEEE 26th Parallel and Distributed Processing Symposium Workshops and PhD Forum (IPDPSW), Shang...
Abstract—The paper presents a performance model that can be used to optimally distribute computation...
This paper is devoted to static load balancing techniques for mapping iterative algorithms onto hete...
Cataloged from PDF version of article.We study the problem of one-dimensional partitioning of nonuni...
We study the problem of one-dimensional partitioning of nonuniform workload arrays with optimal load...
The one-dimensional decomposition of nonuniform workload arrays with optimal load balancing is inves...
One-dimensional decomposition of nonuniform workload arrays for optimal load balancing is investiga...
International audienceThe aim of the paper is to introduce general techniques in order to optimize t...
Ankara : The Department of Computer Engineering and the Graduate School of Engineering and Science o...
In this paper, we address the problem of optimal distribu-tion of computational tasks on a network o...
Abstract. In this paper, we present a novel algorithm of optimal matrix partitioning for parallel de...
Abstract—The paper presents a performance model that can be used to optimally distribute computation...
This extended abstract presents a survey of combinatorial problems encountered in scientific computa...
Distributing spatially located heterogeneous workloads is an important problem in parallel scientifi...
The problem of partitioning dense matrices into sets of sub-matrices has received increased attentio...
2012 IEEE 26th Parallel and Distributed Processing Symposium Workshops and PhD Forum (IPDPSW), Shang...
Abstract—The paper presents a performance model that can be used to optimally distribute computation...
This paper is devoted to static load balancing techniques for mapping iterative algorithms onto hete...
Cataloged from PDF version of article.We study the problem of one-dimensional partitioning of nonuni...
We study the problem of one-dimensional partitioning of nonuniform workload arrays with optimal load...
The one-dimensional decomposition of nonuniform workload arrays with optimal load balancing is inves...
One-dimensional decomposition of nonuniform workload arrays for optimal load balancing is investiga...
International audienceThe aim of the paper is to introduce general techniques in order to optimize t...
Ankara : The Department of Computer Engineering and the Graduate School of Engineering and Science o...
In this paper, we address the problem of optimal distribu-tion of computational tasks on a network o...
Abstract. In this paper, we present a novel algorithm of optimal matrix partitioning for parallel de...
Abstract—The paper presents a performance model that can be used to optimally distribute computation...
This extended abstract presents a survey of combinatorial problems encountered in scientific computa...
Distributing spatially located heterogeneous workloads is an important problem in parallel scientifi...
The problem of partitioning dense matrices into sets of sub-matrices has received increased attentio...
2012 IEEE 26th Parallel and Distributed Processing Symposium Workshops and PhD Forum (IPDPSW), Shang...
Abstract—The paper presents a performance model that can be used to optimally distribute computation...
This paper is devoted to static load balancing techniques for mapping iterative algorithms onto hete...