Adaptive, Transparent Frequency and Voltage Scaling of Communication Phases in MPI Programs

ACM/IEEE SC 2006 Conference (SC'06) Pub Date : 2006-11-11 DOI:10.1145/1188455.1188567

M. Lim, V. Freeh, D. Lowenthal

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引用次数: 209

Abstract

Although users of high-performance computing are most interested in raw performance, both energy and power consumption have become critical concerns. Some microprocessors allow frequency and voltage scaling, which enables a system to reduce CPU performance and power when the CPU is not on the critical path. When properly directed, such dynamic frequency and voltage scaling can produce significant energy savings with little performance penalty. This paper presents an MPI runtime system that dynamically reduces CPU performance during communication phases in MPI programs. It dynamically identifies such phases and, without profiling or training, selects the CPU frequency in order to minimize energy-delay product. All analysis and subsequent frequency and voltage scaling is within MPI and so is entirely transparent to the application. This means that the large number of existing MPI programs, as well as new ones being developed, can use our system without modification. Results show that the average reduction in energy-delay product over the NAS benchmark suite is 10% - the average energy reduction is 12% while the average execution time increase is only 2.1%

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MPI程序中通信相位的自适应、透明频率和电压缩放

尽管高性能计算的用户对原始性能最感兴趣，但能源和功耗已成为关键问题。一些微处理器允许频率和电压缩放，这使得系统可以在CPU不在关键路径上时降低CPU性能和功耗。如果指导得当，这种动态频率和电压缩放可以产生显著的节能效果，而性能损失很小。本文提出了一种MPI运行时系统，在MPI程序的通信阶段动态降低CPU性能。它动态地识别这些相位，并且不需要分析或训练，选择CPU频率以最小化能量延迟积。所有分析和随后的频率和电压缩放都在MPI内，因此对应用程序完全透明。这意味着大量现有的MPI程序以及正在开发的新程序可以使用我们的系统而无需修改。结果表明，在NAS基准套件上，能量延迟产品的平均减少是10% -平均能源减少是12%，而平均执行时间仅增加2.1%

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ACM/IEEE SC 2006 Conference (SC'06)

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