电池供电的数字CMOS设计

Design, Automation and Test in Europe Conference and Exhibition, 1999. Proceedings (Cat. No. PR00078) Pub Date : 1999-01-01 DOI:10.1145/307418.307455

Massoud Pedram, Qing Wu

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引用次数: 64

摘要

在本文中，我们研究了在电池供电的数字CMOS设计中能量损耗和延迟的权衡。与以前的工作相比，我们采用了VLSI电路和为其供电的电池子系统的集成模型。我们表明，考虑到电池容量对平均放电电流的依赖，会改变能量延迟权衡曲线的形状，从而改变导致目标电路最佳能量延迟积的工作电压值。分析推导和实验结果证明了电池-硬件系统整体正确建模的重要性，并为比较针对电池供电电子的各种低功耗优化方法和技术提供了更准确的基础。

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Battery-powered digital CMOS design

In this paper we study tradeoffs between energy dissipation and delay in battery-powered digital CMOS designs. In contrast to previous work, we adopt an integrated model of the VLSI circuit and the battery sub-system that powers it. We show that accounting for the dependence of battery capacity on the average discharge current changes shape of the energy-delay trade-off curve and hence the value of the operating voltage that results in the optimum energy-delay product for the target circuit. Analytical derivations as well as experimental results demonstrate the importance of correct modeling of the battery-hardware system as a whole and provide a more accurate basis for comparing various low power optimization methodologies and techniques targeted toward battery-powered electronics.

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Design, Automation and Test in Europe Conference and Exhibition, 1999. Proceedings (Cat. No. PR00078)

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