Tera-scale 1D FFT with low-communication algorithm and Intel® Xeon Phi™ coprocessors

2013 SC - International Conference for High Performance Computing, Networking, Storage and Analysis (SC) Pub Date : 2013-11-17 DOI:10.1145/2503210.2503242

Jongsoo Park, Ganesh Bikshandi, K. Vaidyanathan, P. T. P. Tang, P. Dubey, Daehyun Kim

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引用次数: 33

Abstract

This paper demonstrates the first tera-scale performance of Intel® Xeon Phi™ coprocessors on 1D FFT computations. Applying a disciplined performance programming methodology of sound algorithm choice, valid performance model, and well-executed optimizations, we break the tera-flop mark on a mere 64 nodes of Xeon Phi and reach 6.7 TFLOPS with 512 nodes, which is 1.5× than achievable on a same number of Intel® Xeon® nodes. It is a challenge to fully utilize the compute capability presented by many-core wide-vector processors for bandwidth-bound FFT computation. We leverage a new algorithm, Segment-of-Interest FFT, with low inter-node communication cost, and aggressively optimize data movements in node-local computations, exploiting caches. Our coordination of low communication algorithm and massively parallel architecture for scalable performance is not limited to running FFT on Xeon Phi; it can serve as a reference for other bandwidth-bound computations and for emerging HPC systems that are increasingly communication limited.

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采用低通信算法和Intel®Xeon Phi™协处理器的万亿级1D FFT

本文展示了Intel®Xeon Phi™协处理器在1D FFT计算上的首个兆级性能。采用合理的算法选择、有效的性能模型和执行良好的优化的严格的性能编程方法，我们在仅64个Xeon Phi节点上打破了tera-flop标记，并在512个节点上达到6.7 TFLOPS，这是在相同数量的Intel®Xeon®节点上可实现的1.5倍。如何充分利用多核宽矢量处理器的计算能力来进行带宽受限的FFT计算是一个挑战。我们利用一种新的算法，兴趣段FFT，具有低节点间通信成本，并积极优化节点本地计算中的数据移动，利用缓存。我们对低通信算法和大规模并行架构的协调可扩展性能并不局限于在Xeon Phi上运行FFT;它可以为其他带宽受限的计算和通信日益受限的新兴HPC系统提供参考。

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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2013 SC - International Conference for High Performance Computing, Networking, Storage and Analysis (SC)

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