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DAC
2005
ACM

Parameterized block-based statistical timing analysis with non-gaussian parameters, nonlinear delay functions

14 years 2 months ago
Parameterized block-based statistical timing analysis with non-gaussian parameters, nonlinear delay functions
Variability of process parameters makes prediction of digital circuit timing characteristics an important and challenging problem in modern chip design. Recently, statistical static timing analysis (statistical STA) has been proposed as a solution. Unfortunately, the existing approaches either do not consider explicit gate delay dependence on process parameters [3] - [6] or restrict analysis to linear Gaussian parameters only [1, [2]. Here we extend the capabilities of parameterized block-based statistical STA [1] to handle nonlinear function of delays and non-Gaussian parameters, while retaining maximum efficiency of processing linear Gaussian parameters. Our novel technique improves accuracy in predicting circuit timing characteristics and retains such benefits of parameterized block-based statistical STA as an incremental mode of operation, computation of criticality probabilities and sensitivities to process parameter variations. We implemented our technique in an industrial stati...
Hongliang Chang, Vladimir Zolotov, Sambasivan Nara
Added 13 Oct 2010
Updated 13 Oct 2010
Type Conference
Year 2005
Where DAC
Authors Hongliang Chang, Vladimir Zolotov, Sambasivan Narayan, Chandu Visweswariah
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