Architecting for power management: The IBM® POWER7™ approach

HPCA - 16 2010 The Sixteenth International Symposium on High-Performance Computer Architecture Pub Date : 2010-04-01 DOI:10.1109/HPCA.2010.5416627

Malcolm S. Allen-Ware, K. Rajamani, M. Floyd, B. Brock, J. Rubio, F. Rawson, J. Carter

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引用次数: 162

Abstract

The POWER7 processor is the newest member of the IBM POWER® family of server processors. With greater than 4X the peak performance and the same power budget as the previous generation POWER6®, POWER7 will deliver impressive energy-efficiency boosts. The improved peak energy-efficiency is accompanied by a wide array of new features in the processor and system designs that advance IBM's EnergyScale™ dynamic power management methodology. This paper provides an overview of these new features, which include better sensing, more advanced power controls, improved scalability for power management, and features to address the diverse needs of the full range of POWER servers from blades to supercomputers. We also highlight three challenges that need attention from a range of systems design and research teams: (i) power management in highly virtualized environments, (ii) power (in)efficiency of systems software and applications, and (iii) memory power costs, especially for servers with large memory footprints.

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电源管理架构:IBM®POWER7™方法

POWER7处理器是IBM POWER®服务器处理器家族的最新成员。POWER7的峰值性能是上一代POWER6®的4倍以上，功耗预算与上一代POWER6®相同，将提供令人印象深刻的能效提升。改进的峰值能源效率伴随着处理器和系统设计中的一系列新功能，这些新功能推进了IBM的EnergyScale™动态电源管理方法。本文概述了这些新功能，包括更好的传感、更先进的电源控制、改进的电源管理可扩展性，以及满足从刀片到超级计算机的各种power服务器需求的功能。我们还强调了系统设计和研究团队需要关注的三个挑战:(i)高度虚拟化环境中的电源管理，(ii)系统软件和应用程序的电源效率，以及(iii)内存功耗成本，特别是对于具有大内存占用的服务器。

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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HPCA - 16 2010 The Sixteenth International Symposium on High-Performance Computer Architecture

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