Performance Evaluation of Intel and Portland Compilers Using Intel Westmere Processor

2011 Second International Conference on Intelligent Systems, Modelling and Simulation Pub Date : 2011-01-25 DOI:10.1109/ISMS.2011.47

M. Al-Mulhem, R. Al-Shaikh

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Abstract

In recent years, we have witnessed a growing interest in optimizing the parallel and distributed computing solutions using scaled-out hardware designs and scalable parallel programming paradigms. This interest is driven by the fact that the microchip technology is gradually reaching its physical limitations in terms of heat dissipation and power consumption. Therefore and as an extension to Moore’s law, recent trends in high performance and grid computing have shown that future increases in performance can only be reached through increases in systems scale using a larger number of components, supported by scalable parallel programming models. In this paper, we evaluate the performance of two commonly used parallel compilers, Intel and Portland’s PGI, using a state-of-the-art Intel West mere-based HPC cluster. The performance evaluation is based on two sets of experiments, once evaluating the compilers’ performance using an MPI-based code, and another using OpenMP. Our results show that, for scientific applications that are matrices-dependant, the MPI and OpenMP features of the Intel compiler supersede PGI when using the defined HPC cluster.

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使用Intel Westmere处理器的Intel和Portland编译器的性能评估

近年来，我们见证了人们对使用向外扩展的硬件设计和可扩展的并行编程范例来优化并行和分布式计算解决方案的兴趣日益浓厚。这种兴趣是由于微芯片技术在散热和功耗方面逐渐达到其物理极限。因此，作为摩尔定律的延伸，高性能和网格计算的最新趋势表明，未来性能的提高只能通过使用更多组件的系统规模的增加来实现，并由可扩展的并行编程模型提供支持。在本文中，我们使用最先进的基于Intel West的HPC集群，评估了两种常用并行编译器(Intel和Portland的PGI)的性能。性能评估基于两组实验，一次使用基于mpi的代码评估编译器的性能，另一次使用OpenMP评估编译器的性能。我们的结果表明，对于依赖于矩阵的科学应用程序，在使用定义的HPC集群时，英特尔编译器的MPI和OpenMP特性取代了PGI。

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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2011 Second International Conference on Intelligent Systems, Modelling and Simulation

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