在各种架构平台上并行化Navier-Stokes计算

D. Jayasimha, M. Hayder, S. K. Pillay
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引用次数: 2

摘要

我们研究了计算流体动力学应用程序的计算、通信和可扩展性特征,该应用程序使用可压缩的Navier-Stokes方程在各种并行架构平台上求解时间精确的射流流场。本研究选择的平台是工作站集群(NASA Lewis的LACE实验试验台)、共享内存多处理器(Cray YMP)、具有不同拓扑结构的分布式内存多处理器——IBM SP和Cray T3D。我们研究了连接工作站集群的各种网络对应用程序性能的影响,以及用于并行化的流行消息传递库引起的开销。这项工作还强调了将内存带宽与处理器速度匹配以获得良好的单处理器性能的重要性。通过研究应用程序在各种体系结构上的性能,我们能够指出每个示例计算平台的优点和缺点
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Parallelizing Navier-Stokes Computations on a Variety of Architectural Platforms
We study the computational, communication, and scalability characteristics of a Computational Fluid Dynamics application, which solves the time accurate flow field of a jet using the compressible Navier-Stokes equations, on a variety of parallel architectural platforms. The platforms chosen for this study are a cluster of workstations (the LACE experimental testbed at NASA Lewis), a shared memory multiprocessor (the Cray YMP), distributed memory multiprocessors with different topologies — the IBM SP and the Cray T3D. We investigate the impact of various networks, connecting the cluster of workstations, on the performance of the application and the overheads induced by popular message passing libraries used for parallelization. The work also highlights the importance of matching the memory bandwidth to the processor speed for good single processor performance. By studying the performance of an application on a variety of architectures, we are able to point out the strengths and weaknesses of each of the example computing platforms
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