求解大规模非厄米线性系统的一种分布式并行异步联合征服方法

Proceedings of the International Conference on High Performance Computing in Asia-Pacific Region Pub Date : 2018-01-28 DOI:10.1145/3149457.3154481

Xinzhe Wu, S. Petiton

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引用次数: 6

摘要

并行Krylov子空间方法是求解大规模稀疏线性系统的常用方法。面对极端规模平台的发展，最小化同步全局通信成为获得良好效率和可扩展性的关键。本文重点介绍了一种混合(联合和征服)方法的最新发展，该方法将三种计算算法与异步通信相结合，以加速非厄米线性系统的分辨率，提高其容错性和可重用性。实验表明，该方法在具有数百个节点的分层集群上的分辨率比传统方法提高了5倍的速度和更好的可扩展性。

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A Distributed and Parallel Asynchronous Unite and Conquer Method to Solve Large Scale Non-Hermitian Linear Systems

Parallel Krylov Subspace Methods are commonly used for solving large-scale sparse linear systems. Facing the development of extreme scale platforms, the minimization of synchronous global communication becomes critical to obtain good efficiency and scalability. This paper highlights a recent development of a hybrid (unite and conquer) method, which combines three computation algorithms together with asynchronous communication to accelerate the resolution of non-Hermitian linear systems and to improve its fault tolerance and reusability. Experimentation shows that our method has an up to 5x speedup and better scalability than the conventional methods for the resolution on hierarchical clusters with hundreds of nodes.

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Proceedings of the International Conference on High Performance Computing in Asia-Pacific Region

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