Comparative study of COW and SMP computer configurations

Proceedings. International Conference on Parallel Computing in Electrical Engineering Pub Date : 2002-09-22 DOI:10.1109/PCEE.2002.1115241

Gavril Godza, V. Cristea

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引用次数: 4

Abstract

The class of MIMD parallel computers includes multiprocessor architectures, such as UMA, COMA, and NUMA, as well as multicomputer architectures, such as MPP and COW. Despite huge technological differences, machines with different architectures may be used to run certain similar applications. An interesting category of applications that may be successfully executed on a variety of parallel architectures is that of genetic algorithms (GAs) that provide more and more attractive solution of many complex engineering problems for which classical optimization methods cannot be used. GAs prove to be parallelizable in a natural way. Parallel genetic algorithms (PGAs) highlight good balance between calculations and communications that allows obtaining good results on different classes of parallel architectures. The paper describes the results obtained in a comparative study of PGAs, implemented on a cluster of SunBlade 100 workstations (COW) and on a Sun Enterprise E10000 (UMA) computer. The study demonstrates suitability of these different architectures for the development and execution of this class of applications. Also, some relevant facts concerning the performance of PGAs are presented.

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COW和SMP计算机配置的比较研究

MIMD并行计算机类包括多处理器体系结构，如UMA、COMA和NUMA，以及多计算机体系结构，如MPP和COW。尽管存在巨大的技术差异，但不同架构的机器可以用来运行某些类似的应用程序。遗传算法(GAs)是一类可以在各种并行架构上成功执行的有趣的应用程序，它为许多经典优化方法无法使用的复杂工程问题提供了越来越有吸引力的解决方案。GAs被证明可以自然地并行化。并行遗传算法(pga)强调计算和通信之间的良好平衡，允许在不同类型的并行体系结构上获得良好的结果。本文描述了在SunBlade 100工作站(COW)集群和Sun Enterprise E10000 (UMA)计算机上实现的PGAs的比较研究结果。该研究证明了这些不同架构对于这类应用程序的开发和执行的适用性。此外，还介绍了与PGAs性能有关的一些事实。

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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Proceedings. International Conference on Parallel Computing in Electrical Engineering

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