A gate level methodology for efficient statistical leakage estimation in complex 32nm circuits

S. Joshi, A. Lombardot, M. Belleville, E. Beigné, S. Girard
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引用次数: 3

Abstract

A fast and accurate statistical method that estimates at gate level the leakage power consumption of CMOS digital circuits is demonstrated. Means, variances and correlations of logic gate leakages are extracted at library characterization step, and used for subsequent circuit statistical computation. In this paper, the methodology is applied to an eleven thousand cells ST test IP. The circuit leakage analysis computation time is 400 times faster than a single fast-Spice corner analysis, while providing coherent results.
一种用于复杂32nm电路中有效统计泄漏估计的门级方法
给出了一种快速准确的CMOS数字电路栅极漏功耗统计方法。在库表征步骤中提取逻辑门泄漏的均值、方差和相关性,并用于后续的电路统计计算。在本文中,该方法应用于11000个单元的ST测试IP。电路泄漏分析的计算时间比单个fast-Spice拐角分析快400倍,同时提供连贯的结果。
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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