Recursive Statistical Blockade: An Enhanced Technique for Rare Event Simulation with Application to SRAM Circuit Design

Recursive Statistical Blockade: An Enhanced Technique for Rare Event Simulation with Application to SRAM Circuit Design

Circuit reliability under statistical process variation is an area of growing concern. For highly replicated circuits such as SRAMs and flip flops, a rare statistical event for one circuit may induce a not-so-rare system failure. The Statistical Blockade was proposed as a Monte Carlo technique that...

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Hauptverfasser: Singhee, A., Jiajing Wang, Calhoun, B.H., Rutenbar, R.A.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Acoustic noise
Circuit simulation
Circuit synthesis
Discrete event simulation
Gaussian noise
Measurement
Monte Carlo methods
Probability distribution
Random access memory
Statistics
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Zusammenfassung:Circuit reliability under statistical process variation is an area of growing concern. For highly replicated circuits such as SRAMs and flip flops, a rare statistical event for one circuit may induce a not-so-rare system failure. The Statistical Blockade was proposed as a Monte Carlo technique that allows us to efficiently filter-to block -unwanted samples insufficiently rare in the tail distributions we seek. However, there are significant practical problems with the technique. In this work, we show common scenarios in SRAM design where these problems render Statistical Blockade ineffective. We then propose significant extensions to make Statistical Blockade practically usable in these common scenarios. We show speedups of 10 2 + over standard Statistical Blockade and 10 4 + over standard Monte Carlo, for an SRAM cell in an industrial 90 nm technology.
ISSN:1063-9667
2380-6923
DOI:10.1109/VLSI.2008.54