节能系统

Conference Record of the Thirty-Fourth Asilomar Conference on Signals, Systems and Computers (Cat. No.00CH37154) Pub Date : 2000-10-29 DOI:10.1109/ACSSC.2000.911278

Manish Bhardwaj, R. Min, Anantha Chandrakasan

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引用次数: 49

摘要

最大限度地提高系统能源效率的关键是理解和系统地利用它们所表现出的巨大的操作多样性。我们将系统的功率感知定义为通过适应其工作点的变化来最小化能耗的能力。这些变化是输入统计数据、期望的输出质量、可容忍的延迟和吞吐量变化的结果。本文的主要目的是明确界定权力意识的概念，将其与更容易理解的低权力概念区分开来;提出一个系统的方法，提高权力意识，最后说明这种重新设计的影响。通过将功率感知形式应用于从乘法器到可变电压处理器的系统，我们证明了能源效率提高了60%-200%。

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Power-aware systems

The key to maximizing energy efficiency of systems is understanding and systematically harnessing the tremendous operational diversity they exhibit. We define the power awareness of a system as its ability to minimize energy consumption by adapting to changes in its operating point. These changes occur as a result of variations in input statistics, desired output quality, tolerable latency and throughput. The key objective of this paper is to unambiguously define the notion of power-awareness, distinguish it from the better understood concept of low-power; to propose a systematic methodology that enhances power-awareness and finally to illustrate the impact of such re-engineering. By applying power-awareness formalisms to systems ranging from multipliers to variable voltage processors, we demonstrate increases in energy efficiency of 60%-200%.

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Conference Record of the Thirty-Fourth Asilomar Conference on Signals, Systems and Computers (Cat. No.00CH37154)

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