Title :
Confidence Scalable Post-Silicon Statistical Delay Prediction under Process Variations
Author :
Liu, Qunzeng ; Sapatnekar, Sachin S.
Author_Institution :
Univ. of Minnesota, Minneapolis
Abstract :
Due to increased variability trends in nanoscale integrated circuits, statistical circuit analysis has become essential. We present a novel method for post-silicon analysis that gathers data from a small number of on-chip test structures, and combines this information with pre-silicon statistical timing analysis to obtain narrow, die-specific, timing PDFs. Experimental results show that for the benchmark suite being considered, taking all parameter variations into consideration, our approach can get a PDF with the standard deviation 83.5% smaller on average than the SSTA result. The approach is scalable to smaller test structure overheads.
Keywords :
integrated circuit testing; nanoelectronics; silicon; system-on-chip; nanoscale integrated circuit; on-chip test structure; post-silicon statistical delay prediction; statistical circuit analysis; statistical timing analysis; Circuit testing; Delay estimation; Design optimization; Information analysis; Manufacturing; Performance analysis; Permission; Principal component analysis; Semiconductor device measurement; Timing; Design; Performance; Post-Silicon Optimization; Statistical Timing Analysis;
Conference_Titel :
Design Automation Conference, 2007. DAC '07. 44th ACM/IEEE
Conference_Location :
San Diego, CA
Print_ISBN :
978-1-59593-627-1
