Title :
Crosstalk-aware signal probability-based dynamic statistical timing analysis
Author :
Yao Chen ; Kahng, Andrew B. ; Bao Liu ; Wenjun Wang
Author_Institution :
Univ. of Texas at San Antonio, San Antonio, TX, USA
Abstract :
Crosstalk is an increasingly significant effect for VLSI timing performance. Traditional STA or SSTA techniques provide pessimistic crosstalk analysis based on timing window envelopes. In this paper, we present input-aware signal probability-based statistical timing analysis (SPSTA) taking crosstalk-induced delay variations into account. SPSTA achieves reduced pessimism and improved accuracy by signal propagation path/network-based timing analysis and leveraging some existing automatic test pattern generation (ATPG) techniques. Our experiments based on the 45nm Nangate open cell library show that compared with 1.35 million Monte Carlo simulation runs, while PrimeTime-SI over-estimates by 14.64%, 16.39% and 19.69%, SSTA achieves an average of 2.85%, 2.89% and 3.59% inaccuracy, and SPSTA achieves an average of 1.85%, 2.54% and 1.53% inaccuracy in crosstalk-oblivious, crosstalk-aware non-iterative and crosstalk-aware iterative analysis, respectively.
Keywords :
VLSI; automatic test pattern generation; crosstalk; iterative methods; statistical analysis; timing; ATPG techniques; Nangate open cell library show; SPSTA; SSTA techniques; VLSI timing performance; automatic test pattern generation techniques; crosstalk-aware iterative analysis; crosstalk-aware non-iterative analysis; crosstalk-induced delay variations; crosstalk-oblivious analysis; input-aware signal probability-based statistical timing analysis; network-based timing analysis; pessimistic crosstalk analysis; signal propagation path; size 45 nm; timing window envelopes; Crosstalk; Delays; Logic gates; Monte Carlo methods; Probability; Very large scale integration;
Conference_Titel :
Quality Electronic Design (ISQED), 2015 16th International Symposium on
Conference_Location :
Santa Clara, CA
Print_ISBN :
978-1-4799-7580-8
DOI :
10.1109/ISQED.2015.7085463
