在Xeon Phi MIC协处理器上使用基于私有ivm的并行分支绑定工作窃取

2015 International Conference on High Performance Computing & Simulation (HPCS) Pub Date : 2015-07-20 DOI:10.1109/HPCSim.2015.7237067

N. Melab, Rudi Leroy, M. Mezmaz, D. Tuyttens

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引用次数: 6

摘要

在实践中，许多组合优化问题都是基于排列的组合优化问题。我们最近提出了一种名为IVM的新数据结构，专门用于解决这些问题。对于使用Branch-and-Bound (B&B)算法解决大型排列问题，IVM在大小和管理时间方面具有内存效率。我们相信这些内存属性使IVM非常适合多集成核心(MIC)架构。本文研究了基于私有ivm的工作窃取在MIC架构上并行设计和实现B&B算法。所提出的方法已经在Intel Xeon Phi 5110P上进行了广泛的实验，使用了几个Flow-Shop调度排列问题的实例。报告的结果表明，基于ivm的工作窃取方法比传统上用于并行民宿的链表方法快10倍左右。

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Parallel Branch-and-Bound using private IVM-based work stealing on Xeon Phi MIC coprocessor

Many combinatorial optimization problems are modeled in practice as permutation-based ones. We have recently proposed a new data structure called IVM dedicated to those problems. IVM is memory efficient in terms of size and management time for solving large permutation problems using Branch-and-Bound (B&B) algorithm. We believe that those memory properties make IVM well-suited for Many Integrated Cores (MIC) architecture. This paper deals with the parallel design and implementation of the B&B algorithm on MIC architectures using private IVM-based work stealing. The proposed approach has been extensively experimented on an Intel Xeon Phi 5110P using several instances of the Flow-Shop scheduling permutation problem. The reported results show that the IVM-based work stealing approach is about 10 times faster than the linked-list traditionally used for parallel B&B.

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2015 International Conference on High Performance Computing & Simulation (HPCS)

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