用于延迟计算的力矩的概率解释

Proceedings 1998 Design and Automation Conference. 35th DAC. (Cat. No.98CH36175) Pub Date : 1998-05-01 DOI:10.1145/277044.277172

R. Kay, L. Pileggi

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引用次数: 89

摘要

脉冲响应矩广泛用于互连延迟分析，从显式Elmore延迟(脉冲响应的第一矩)表达式，到产生降阶跨阻抗和传递函数近似的矩匹配方法。然而，Elmore延迟在深亚微米技术中迅速变得无效，并且降低阶传递函数延迟对于早期设计度量或设计优化成本函数来说是不切实际的。本文描述了一种将脉冲响应矩拟合到概率密度函数的方法，从而可以从概率表中估计时延。对于RC树，证明了不完全函数提供了一个可证明的稳定近似。阶跃响应延迟是通过一维表查找获得的。

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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PRIMO: probability interpretation of moments for delay calculation

Moments of the impulse response are widely used for interconnect delay analysis, from the explicit Elmore delay (first moment of the impulse response) expression, to moment matching methods which create reduced order transimpedance and transfer function approximations. However the Elmore delay is fast becoming ineffective for deep submicron technologies, and reduced order transfer function delays are impractical for use as early-phase design metrics or as design optimization cost functions. This paper describes an approach for fitting moments of the impulse response to probability density functions so that delays can be estimated from probability tables. For RC trees it is demonstrated that the incomplete gamma function provides a provably stable approximation. The step response delay is obtained from a one-dimensional table lookup.

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Proceedings 1998 Design and Automation Conference. 35th DAC. (Cat. No.98CH36175)

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