DocumentCode
3239842
Title
Signal Probability Based Statistical Timing Analysis
Author
Liu, Bao
Author_Institution
Comput. Sci. & Eng. Dept., Univ. of California San Diego, La Jolla, CA
fYear
2008
fDate
10-14 March 2008
Firstpage
562
Lastpage
567
Abstract
VLSI timing analysis and power estimation target the same circuit switching activity. Power estimation techniques are categorized as (1) static, (2) statistical, and (3) simulation and testing based methods. Similarly, statistical timing analysis methods are in three counterpart categories: (I) statistical static timing analysis, (2) probabilistic technique based statistical timing analysis, and (3) Monte Carlo (SPICE) simulation and testing. Leveraging with existing power estimation techniques, I propose signal probability (i.e., the logic one occurrence probability on a net) based statistical timing analysis, for improved accuracy and reduced pessimism over the existing statistical static timing analysis methods, and improved efficiency over Monte Carlo (SPICE) simulation. Experimental results on ISCAS benchmark circuits show that SPSTA computes the means (standard deviations) of the maximum signal arrival times within 5.6% (7.7%), SSTA within 16.5% (46.9%), and STA within 83.0% (132.4%) in average of Monte Carlo simulation results, respectively. More significant accuracy improvements are expected in the presence of increased process and environmental variations.
Keywords
Monte Carlo methods; SPICE; VLSI; statistical analysis; timing; ISCAS benchmark circuits; Monte Carlo simulation; SPICE; SPSTA; VLSI timing analysis; power estimation; signal probability; standard deviations; statistical timing analysis; Analytical models; Circuit simulation; Circuit testing; Monte Carlo methods; Probabilistic logic; Probability; SPICE; Signal analysis; Timing; Very large scale integration;
fLanguage
English
Publisher
ieee
Conference_Titel
Design, Automation and Test in Europe, 2008. DATE '08
Conference_Location
Munich
Print_ISBN
978-3-9810801-3-1
Electronic_ISBN
978-3-9810801-4-8
Type
conf
DOI
10.1109/DATE.2008.4484736
Filename
4484736
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