Digital statistical analysis using VHDL
Design, Automation & Test in Europe Conference & Exhibition(2010)
摘要
Variations of process parameters have an important impact on reliability and yield in deep sub micron IC technologies. One methodology to estimate the influence of these effects on power and delay times at chip level is Monte Carlo Simulation, which can be very accurate but time consuming if applied to transistor-level models. We present an alternative approach, namely a statistical gate-level simulation flow, based on parameter sensitivities and a generated VHDL cell model. This solution provides a good speed/accuracy tradeoff by using the event-driven digital simulation domain together with an extended consideration of signal slope times directly in the cell model. The designer gets a fast and accurate overview about the statistical behavior of power consumption and timing of the circuit depending on the manufacturing variations. The paper shortly illustrates the general flow from cell characterization to the model structure and presents first simulation results.
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关键词
Monte Carlo methods,digital integrated circuits,digital simulation,hardware description languages,integrated circuit design,integrated circuit reliability,integrated circuit yield,logic design,logic gates,statistical analysis,VHDL cell model,cell characterization,deep sub micron IC technology reliability,deep sub micron IC technology yield,digital IC design,digital statistical analysis,event-driven digital simulation domain,gate-level Monte Carlo simulation,parameter sensitivity,process parameter variations,signal slope times,statistical gate-level simulation flow,statistical power analysis,statistical timing analysis,transistor-level models,Simulation,digital IC design,statistical power analysis,statistical timing analysis
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