消息传递并行程序的自动性能预测

R. Block, S. Sarukkai, P. Mehra
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引用次数: 15

摘要

越来越多地使用大规模并行超级计算机来解决大规模科学问题,这产生了对能够预测为这些机器编写的应用程序的可伸缩性趋势的工具的需求。为了创建简单的模型来表示并行程序的重要特征,例如延迟、网络争用和通信量,已经做了很多工作。但是这些方法中的许多仍然需要大量的手工工作来用模型的格式表示应用程序。本文中描述的MK工具包是一项持续努力的结果,该努力使程序执行时间的解析表达式的形成自动化,并且只需要最少的程序员帮助。在本文中,我们证明了我们的方法的可行性,通过扩展以前的工作来自动检测和建模通信模式,有或没有重叠的计算。在合理的范围内,由这些模型得出的预测与在Intel iPSC/860和Paragon上测量的程序执行时间一致。此外,我们展示了MK在选择最佳计算粒度和研究各种可扩展性指标方面的使用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Automated Performance Prediction of Message-Passing Parallel Programs
The increasing use of massively parallel supercomputers to solve large-scale scientific problems has generated a need for tools that can predict scalability trends of applications written for these machines. Much work has been done to create simple models that represent important characteristics of parallel programs, such as latency, network contention, and communication volume. But many of these methods still require substantial manual effort to represent an application in the model's format. The MK toolkit described in this paper is the result of an on-going effort to automate the formation of analytic expressions of program execution time, with a minimum of programmer assistance. In this paper we demonstrate the feasibility of our approach, by extending previous work to detect and model communication patterns automatically, with and without overlapped computations. The predictions derived from these models agree, within reasonable limits, with execution times of programs measured on the Intel iPSC/860 and Paragon. Further, we demonstrate the use of MK in selecting optimal computational grain size and studying various scalability metrics.
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