随机电报噪声诱发阈值电压变异性的最坏情况性能分析

2018 28th International Symposium on Power and Timing Modeling, Optimization and Simulation (PATMOS) Pub Date : 2018-07-01 DOI:10.1109/PATMOS.2018.8464147

A. Islam, H. Onodera

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引用次数: 5

摘要

RTN感应阈值电压分布有一条长尾，会严重降低最坏情况下的电压分布。在本文中，我们基于从65 nm薄体硅低阈值电压工艺中提取的变异性模型分析了RTN对最坏情况性能的影响。基于蒙特卡罗的仿真结果表明，当关键路径数为10时，随着电源电压的降低，RTN可以将最坏情况延迟降低10%以上。如果关键路径数增加到100，最坏情况下的延迟退化可能高达100%。由于RTN引起的阈值电压波动，在近/次阈值运行时出现了几个异常值。考虑到弱反转时RTN幅值会增大，低压运行时需要仔细考虑RTN。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Worst-Case Performance Analysis Under Random Telegraph Noise Induced Threshold Voltage Variability

RTN induced threshold voltage distribution has a long tail that can degrade the worst-case distribution severely. In this paper, we analyze the effect of RTN on worst-case performance based on variability models extracted from a 65 nm silicon-on-thin-body low threshold voltage process. Monte Carlo based simulation results reveal that with the lowering of supply voltage, RTN can degrade the worst-case delay by more than 10 % when the number of critical paths is 10. The worst-case delay degradation can go as high as 100 % if the critical path number increases to 100. Because of the RTN induced threshold voltage fluctuation, several outliers appear at near/sub-threshold operation. Considering RTN amplitude can increase at weak-inversion operation, low-voltage operation needs careful consideration of RTN.

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2018 28th International Symposium on Power and Timing Modeling, Optimization and Simulation (PATMOS)

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