纳米级CMOS SRAM写入复制电路的时序控制退化及NBTI/PBTI容限设计

2009 International Symposium on VLSI Design, Automation and Test Pub Date : 2009-04-28 DOI:10.1109/VDAT.2009.5158120

Shyh-Chyi Yang, Hao-I Yang, C. Chuang, W. Hwang

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引用次数: 10

摘要

负偏置温度不稳定性(NBTI)和正偏置温度不稳定性(PBTI)引起的阈值电压(VT)漂移会降低纳米SRAM在使用寿命中的稳定性、裕度和性能。此外，大多数最先进的sram采用副本定时控制方案来减轻过度泄漏和变化的影响，NBTI/PBTI诱导的VT漂移可能使该方案无效甚至无用。在本文中，我们研究了NBTI和PBTI对基于PTM 32nm CMOS技术节点多栅极和高k金属栅极模型的SRAM写操作的影响。我们提出了一种NBTI/PBTI容忍的写副本定时控制方案，以减轻写余量和性能下降。通过采用多银行架构并将非活动时序关键电路的虚拟供电线偏置到GND以最小化应力时间和最大化“恢复”周期，NBTI/PBTI诱导的SRAM写入性能下降可降低约32-48%。

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Timing control degradation and NBTI/PBTI tolerant design for Write-replica circuit in nanoscale CMOS SRAM

The threshold voltage (VT) drifts caused by Negative-Bias Temperature Instability (NBTI) and Positive-Bias Temperature Instability (PBTI) degrade stability, margin, and performance of nanoscale SRAM over the lifetime of usage. Moreover, most state-of-the-art SRAMs employ replica timing control scheme to mitigate the effects of excessive leakage and variation, and NBTI/PBTI induced VT drifts can render the scheme ineffective or even useless. In this paper, we investigate impacts of NBTI and PBTI on SRAM Write operations based on PTM 32nm CMOS technology node poly-gate and high-k metal-gate models. We propose an NBTI/PBTI tolerant Write-replica timing control scheme to mitigate Write margin and performance degradation. By using multi-bank architecture and biasing the virtual supply line of inactive timing-critical circuits to GND to minimize the stress time and maximize the “Recovery” period, the NBTI/PBTI induced SRAM Write performance degradation can be reduced by around 32–48%.

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2009 International Symposium on VLSI Design, Automation and Test

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