网格上具有负载均衡的PFSP并行求解算法的实证研究

2015 5th International Conference on Information & Communication Technology and Accessibility (ICTA) Pub Date : 2015-12-01 DOI:10.1109/ICTA.2015.7426935

Samia Kouki, M. Jemni, T. Ladhari

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引用次数: 1

摘要

用精确搜索方法(如分支定界法)求解NP-hard组合优化问题可能退化为完全枚举。由于这个原因，精确的方法限制了我们只能解决较小或中等规模的问题实例，因为当问题规模增加时，CPU时间会呈指数增长。一个最有希望的方法是设计并行版本的分支定界算法，这些算法使用多个处理器，以显著减少顺序版本的计算负担。本文提出了一种解决经典排列流水车间调度问题的并行分支定界算法GALB及其在网格计算基础设施上的实现。我们的分布式并行算法的实验研究取得了令人满意的结果，并清楚地表明并行范式在中等CPU时间内解决大规模实例的优势。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A parallel algorithm for solving the PFSP with load balancing on the grid: An empirical study

Solving NP-hard combinatorial optimization problems by exact search methods, such as Branch-and-Bound, may degenerate to complete enumeration. For that reason, exact approaches limits us to solve only small or moderate size problem instances, due to the exponential increase in CPU time when problem size increases. One of the most promising ways to reduce significantly the computational burden of sequential versions of Branch-and-Bound is to design parallel versions of these algorithms which employ several processors. This paper describes a parallel Branch-and-Bound algorithm called GALB for solving the classical permutation flowshop scheduling problem as well as its implementation on a Grid computing infrastructure. The experimental study of our distributed parallel algorithm gives promising results and shows clearly the benefit of the parallel paradigm to solve large-scale instances in moderate CPU time.

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2015 5th International Conference on Information & Communication Technology and Accessibility (ICTA)

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