369 Tflop/s molecular dynamics simulations on the Roadrunner general-purpose heterogeneous supercomputer

2008 SC - International Conference for High Performance Computing, Networking, Storage and Analysis Pub Date : 2008-11-15 DOI:10.1145/1413370.1413436

S. Swaminarayan, K. Kadau, T. Germann, G. Fossum

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引用次数: 31

Abstract

We present timing and performance numbers for a short-range parallel molecular dynamics (MD) code, SPaSM, that has been rewritten for the heterogeneous Roadrunner supercomputer. Each Roadrunner compute node consists of two AMD Opteron dualcore microprocessors and four PowerXCell 8i enhanced Cell microprocessors, so that there are four MPI ranks per node, each with one Opteron and one Cell. The interatomic forces are computed on the Cells (each with one PPU and eight SPU cores), while the Opterons are used to direct inter-rank communication and perform I/O-heavy periodic analysis, visualization, and checkpointing tasks. The performance measured for our initial implementation of a standard Lennard-Jones pair potential benchmark reached a peak of 369 Tflop/s double-precision floating-point performance on the full Roadrunner system (27.7% of peak), corresponding to 124 MFlop/Watt/s at a price of approximately 3.69 MFlops/dollar. We demonstrate an initial target application, the jetting and ejection of material from a shocked surface.

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在Roadrunner通用异构超级计算机上的369 Tflop/s分子动力学模拟

我们给出了一个短程并行分子动力学(MD)代码SPaSM的时间和性能数字，该代码已经为异构Roadrunner超级计算机重写。每个Roadrunner计算节点由两个AMD Opteron双核微处理器和四个PowerXCell 8i增强型Cell微处理器组成，因此每个节点有四个MPI排名，每个节点有一个Opteron和一个Cell。原子间作用力在cell上计算(每个cell有一个PPU和8个SPU内核)，而Opterons用于指导层间通信并执行重I/ o的周期分析、可视化和点检任务。我们对标准Lennard-Jones对潜在基准的初始实现进行了性能测试，在完整的Roadrunner系统上达到了369 Tflop/s的双精度浮点性能峰值(峰值的27.7%)，相当于124 MFlop/Watt/s，价格约为3.69 MFlops/美元。我们演示了一个初始目标应用，即从受冲击表面喷射和抛射材料。

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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2008 SC - International Conference for High Performance Computing, Networking, Storage and Analysis

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