利用电路级统计时序分析预测电路性能

Proceedings of European Design and Test Conference EDAC-ETC-EUROASIC Pub Date : 1994-02-28 DOI:10.1109/EDTC.1994.326856

Ronn B. Brashear, N. Menezes, C. Oh, L. Pileggi, M. R. Mercer

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引用次数: 47

摘要

认识到电路的延迟对制造工艺变化极为敏感，本文提出了一种统计时序分析方法。作者提出了一个三节点延迟模型，该模型固有地捕捉了输入跃迁时间对栅极延迟的影响。采用响应面法，有效地产生了统计门延迟。提出了一种基于最小可传播脉宽(MPPW)的路径敏化准则来检测假路径。路径与较长路径的重叠决定了其对整个电路延迟的“统计显著性”。最后，通过对具有统计意义的路径集进行蒙特卡罗模拟来计算电路延迟概率密度函数

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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Predicting circuit performance using circuit-level statistical timing analysis

Recognizing that the delay of a circuit is extremely sensitive to manufacturing process variations, this paper proposes a methodology for statistical timing analysis. The authors present a triple-node delay model which inherently captures the effect of input transition time on the gate delays. Response surface methods are used so that the statistical gate delays are generated efficiently. A new path sensitization criterion based on the minimum propagatable pulse width (MPPW) of the gates along a path is used to check for false paths. The overlap of a path with longer paths determines its "statistical significance" to the overall circuit delay. Finally, the circuit delay probability density function is computed by performing a Monte Carlo simulation on the statistically significant path set.<>

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Proceedings of European Design and Test Conference EDAC-ETC-EUROASIC

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