大规模功率测量中的节点变异性:来自Green500、Top500和EEHPCWG的视角

SC15: International Conference for High Performance Computing, Networking, Storage and Analysis Pub Date : 2015-11-15 DOI:10.1145/2807591.2807653

T. Scogland, Jonathan J. Azose, D. Rohr, Suzanne Rivoire, Natalie J. Bates, D. Hackenberg

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引用次数: 20

摘要

在过去的十年里，功耗已经从一个事后的想法变成了新型超级计算机的首要设计约束。测量超级计算机的能力可能是一项艰巨的任务，因此，许多已发表的测量结果都是外推的。本文探讨了在节点间功率变异性和功率随时间变化的情况下，这些外推的有效性。我们描述了全球八个超级计算机中心系统中节点之间的功率变化。这一特征表明，当前提交给Green500和其他机构的测量需求是不够的，由于测量时间的原因，允许高达20%的变化，并且由于样本量不足，允许进一步的10- 15%的变化。本文对超级计算机提出了新的功率和能量测量要求，其中一些已经被Green500和Top500接受使用，以确保一致的精度。

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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Node variability in large-scale power measurements: perspectives from the Green500, Top500 and EEHPCWG

The last decade has seen power consumption move from an afterthought to the foremost design constraint of new supercomputers. Measuring the power of a supercomputer can be a daunting proposition, and as a result, many published measurements are extrapolated. This paper explores the validity of these extrapolations in the context of inter-node power variability and power variations over time within a run. We characterize power variability across nodes in systems at eight supercomputer centers across the globe. This characterization shows that the current requirement for measurements submitted to the Green500 and others is insufficient, allowing variations of up to 20% due to measurement timing and a further 10--15% due to insufficient sample sizes. This paper proposes new power and energy measurement requirements for supercomputers, some of which have been accepted for use by the Green500 and Top500, to ensure consistent accuracy.

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SC15: International Conference for High Performance Computing, Networking, Storage and Analysis

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