Scalable parallel molecular dynamics on MIMD supercomputers

Proceedings Scalable High Performance Computing Conference SHPCC-92. Pub Date : 1992-04-26 DOI:10.1109/SHPCC.1992.232635
S. Plimpton, G. Heffelfinger
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引用次数: 17

Abstract

Presents two parallel algorithms suitable for molecular dynamics simulations over a wide range of sizes, from a few hundred to millions of atoms. One of the algorithms is optimally scalable, offering performance proportional to N/P where N is the number of atoms (or molecules) and P is the number of processors. Their implementation on three MIMD parallel computers (nCUBE2, Intel Gamma, and Intel Delta) and performance on a standard benchmark problem as compared to vector and SIMD implementations is discussed. The authors also briefly describe the integration of one of the algorithms into a widely-used code appropriate for modeling defect dynamics in metals via the embedded atom method.<>
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在MIMD超级计算机上的可扩展并行分子动力学
提出了两种并行算法,适用于分子动力学模拟的大范围尺寸,从几百到数百万的原子。其中一种算法具有最佳可扩展性,提供与N/P成比例的性能,其中N是原子(或分子)的数量,P是处理器的数量。讨论了它们在三台MIMD并行计算机(nCUBE2、Intel Gamma和Intel Delta)上的实现,以及与矢量和SIMD实现相比,在标准基准测试问题上的性能。作者还简要描述了将其中一种算法集成到一个广泛使用的代码中,该代码适用于通过嵌入原子方法对金属中的缺陷动力学进行建模。
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Proceedings Scalable High Performance Computing Conference SHPCC-92.
Proceedings Scalable High Performance Computing Conference SHPCC-92.
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Scalable parallel molecular dynamics on MIMD supercomputers On the influence of programming models on shared memory computer performance Using atomic data structures for parallel simulation Scalability issues for a class of CFD applications Scalability of data transport
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