A statistically rigorous approach for improving simulation methodology

The Ninth International Symposium on High-Performance Computer Architecture, 2003. HPCA-9 2003. Proceedings. Pub Date : 2003-02-08 DOI:10.1109/HPCA.2003.1183546

J. Yi, D. Lilja, D. Hawkins

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引用次数: 171

Abstract

Due to cost, time, and flexibility constraints, simulators are often used to explore the design space when developing new processor architectures, as well as when evaluating the performance of new processor enhancements. However, despite this dependence on simulators, statistically rigorous simulation methodologies are not typically used in computer architecture research. A formal methodology can provide a sound basis for drawing conclusions gathered from simulation results by adding statistical rigor, and consequently, can increase confidence in the simulation results. This paper demonstrates the application of a rigorous statistical technique to the setup and analysis phases of the simulation process. Specifically, we apply a Plackett and Burman design to: (1) identify key processor parameters; (2) classify benchmarks based on how they affect the processor; and (3) analyze the effect of processor performance enhancements. Our technique expands on previous work by applying a statistical method to improve the simulation methodology instead of applying a statistical model to estimate the performance of the processor.

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改进模拟方法的统计严谨方法

由于成本、时间和灵活性的限制，在开发新的处理器体系结构以及评估新处理器增强的性能时，通常使用模拟器来探索设计空间。然而，尽管这种对模拟器的依赖，统计上严格的模拟方法通常不用于计算机体系结构研究。正式的方法可以通过增加统计严谨性，为从模拟结果中得出结论提供坚实的基础，从而提高模拟结果的可信度。本文演示了严格的统计技术在模拟过程的设置和分析阶段的应用。具体来说，我们采用Plackett和Burman设计:(1)确定关键处理器参数;(2)根据对处理器的影响对基准进行分类;(3)分析了处理器性能增强的效果。我们的技术扩展了以前的工作，应用统计方法来改进仿真方法，而不是应用统计模型来估计处理器的性能。

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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来源期刊

The Ninth International Symposium on High-Performance Computer Architecture, 2003. HPCA-9 2003. Proceedings.

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