Extended dynamic voltage scaling for low power design

IEEE International SOC Conference, 2004. Proceedings. Pub Date : 2004-09-12 DOI:10.1109/SOCC.2004.1362475

Bo Zhai, D. Blaauw, D. Sylvester, K. Flautner

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引用次数: 6

Abstract

Dynamic voltage scaling (DVS) is a popular approach for energy reduction of integrated circuits. Current processors that use DVS typically have an operating voltage range from full to half of the maximum V/sub dd/. However, it is possible to construct designs that operate over a much larger voltage range: from full Vdd to subthreshold voltages. This possibility raises the question of whether a larger voltage range improves the energy efficiency of DVS. First, from a theoretical point of view, we show that for subthreshold supply voltages leakage energy becomes dominant, making "just in time completion" energy inefficient. We derive an analytical model for the minimum energy optimal voltage and study its trends with technology scaling. Second, we compare several different low-power approaches including MTCMOS, standard DVS and extended DVS to subthreshold operation. Study of real applications on commercial processor shows that extended DVS has the best energy efficiency. Therefore, we conclude that extending the voltage range below V/sub dd//2 will improve the energy efficiency for most processor designs.

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扩展动态电压缩放低功耗设计

动态电压缩放(DVS)是集成电路节能的一种流行方法。使用分布式交换机的当前处理器的工作电压范围通常为最大V/sub /的全部到一半。然而，可以构建在更大电压范围内工作的设计:从全Vdd到亚阈值电压。这种可能性提出了一个问题，即更大的电压范围是否会提高分布式交换机的能源效率。首先，从理论的角度来看，我们表明，对于亚阈值供电电压，泄漏能量占主导地位，使得“及时完成”能量效率低下。导出了最小能量最优电压的解析模型，并研究了其随技术尺度变化的趋势。其次，我们比较了几种不同的低功耗方法，包括MTCMOS，标准DVS和扩展DVS到亚阈值操作。在商用处理器上的实际应用研究表明，扩展分布式交换机具有最佳的能效。因此，我们得出结论，将电压范围扩展到V/sub dd//2以下将提高大多数处理器设计的能量效率。

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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IEEE International SOC Conference, 2004. Proceedings.

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