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Design and control methodology for fine grain power gating based on energy characterization and code profiling of microprocessors

2014 19th Asia and South Pacific Design Automation Conference (ASP-DAC) Pub Date : 2014-03-27 DOI:10.1109/ASPDAC.2014.6742995
K. Usami, M. Kudo, Kensaku Matsunaga, Tsubasa Kosaka, Yoshihiro Tsurui, Weihan Wang, H. Amano, Hiroaki Kobayashi, Ryuichi Sakamoto, M. Namiki, Masaaki Kondo, Hiroshi Nakamura
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引用次数: 9

Abstract

This paper presents a design and control scheme of a microprocessor whose internal function units are power gated at instruction-by-instruction basis. Enabling/disabling the power gating is adaptively controlled under the support of on-chip leakage monitors and the operating system to minimize energy overhead due to sleep-in and wakeup. Measured results of the fabricated chip in the 65nm CMOS technology demonstrated that our approach reduces energy to 21-35% in the range of 25-85°C as compared to the non power-gated case. Energy dissipation was reduced by up to 15% as compared to the conventional fine-grain power gating technique in the same temperature range.
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基于微处理器能量表征和代码分析的细粒度功率门控设计与控制方法
本文提出了一种内部功能单元按指令进行电源门控的微处理器的设计和控制方案。在片上泄漏监视器和操作系统的支持下,自适应控制电源门控的使能/禁用,以最大限度地减少由于睡眠和唤醒造成的能量开销。采用65nm CMOS技术制造的芯片的测量结果表明,与非功率门控情况相比,我们的方法在25-85°C范围内可将能量降低21-35%。在相同的温度范围内,与传统的细颗粒功率门控技术相比,能量耗散减少了15%。
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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2014 19th Asia and South Pacific Design Automation Conference (ASP-DAC)
2014 19th Asia and South Pacific Design Automation Conference (ASP-DAC)
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