Abstract
The traditional approach to worst-case static-timing analysis is becoming unacceptably conservative due to an ever-increasing number of circuit and process effects. We propose a fundamentally different framework that aims to significantly improve the accuracy of timing predictions through fully probabilistic analysis of gate and path delays. We describe a bottom-up approach for the construction of joint probability density function of path delays, and present novel analytical and algorithmic methods for finding the full distribution of the maximum of a random path delay space with arbitrary path correlations.
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