纳米级逻辑中nbti临界门的层次识别

S. Kostin, J. Raik, R. Ubar, M. Jenihhin, F. Vargas, L. Bolzani, T. Copetti
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引用次数: 12

摘要

负偏置温度不稳定性(NBTI)引起的时间依赖性变化是纳米级逻辑中主要的可靠性问题之一。它增加了pMOS晶体管的开关阈值电压,从而减慢了信号沿着触发器之间的路径传播,从而导致电路中的功能故障。在本文中,我们提出了一种在纳米尺度逻辑中识别nbti临界门的方法。该方法基于静态时序分析,提供了在nbti引起的延迟退化下的延迟关键路径。为了选择对电路老化影响最大的门组,对这些关键路径进行了分析。这些门被硬化对抗NBTI老化效应,保证在给定的时序和电路寿命限制下正确的电路行为。该方法在一个工业ALU电路设计中得到了验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hierarchical identification of NBTI-critical gates in nanoscale logic
One of the main reliability concerns in the nanoscale logic is the time-dependent variation caused by Negative Bias Temperature Instability (NBTI). It increases the switching threshold voltage of pMOS transistors and as a result slows down signal propagation along the paths between flip-flops, thus causing functional failures in the circuit. In this paper we propose an approach to identify NBTI-critical gates in nanoscale logic. The method is based on static timing analysis that provides delay critical paths under NBTI-induced delay degradation. An analysis on these critical paths is performed in order to select the set of gates that have the highest influence on circuit aging. These gates are to be hardened against NBTI aging effects guaranteeing correct circuit behavior under the given timing and circuit lifetime constraints. The proposed approach is demonstrated on an industrial ALU circuit design.
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