14.7 SRAM寄存器文件中NBTI退化的现场传感技术

Teng Yang, Doyun Kim, P. Kinget, Mingoo Seok
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引用次数: 22

摘要

SRAM寄存器文件具有敏感的电路,通常在高开关活动和高温下工作。这使得它们特别容易因PMOS器件的负偏置温度不稳定性(NBTI)退化而老化。我们提出了一种技术来感知这种老化退化;它是一种直接在位单元中检测PMOSs阈值电压(Vt)的原位技术,由于能够在温度和电压变化中检测V,因此可以在现场工作。该技术可以成为几种动态可靠性管理(DRM)方法的基础,包括:1)定期(例如,每隔几个月)检测V值,以评估NBTI退化的数量和速率;2)检测单个单元中两个PMOSs之间的电压差,确定其强度偏差并估计最小功能电压(VMIN)退化;3)使用bitcell间的倾斜信息创建恢复向量,该恢复向量可用于恢复老化的PMOSs,从而重新平衡倾斜。现有的使用环形振荡器或电流传感器来检测位元可靠性和性能的原位技术无法支持现场操作,这是DRM的一个关键问题,因为在传感过程中无法控制环境参数,特别是温度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
14.7 In-situ techniques for in-field sensing of NBTI degradation in an SRAM register file
SRAM register files have sensitive circuitry and often operate with high switching activity and at high temperature. This makes them particularly vulnerable to aging by negative-bias temperature instability (NBTI) degradation of their PMOS devices. We propose a technique to sense this aging degradation; it is an in-situ technique sensing the threshold voltage (Vt) of PMOSs directly in bitcells, and can operate in-field, thanks to the ability to sense V, robustly across temperature and voltage variations. This technique can be foundational for several dynamic reliability management (DRM) approaches, including: 1) sensing V, values periodically (e.g., every several months) for evaluating the amount and the rate of NBTI degradation; 2) sensing V, differences between two PMOSs in a bitcell to determine their strength skew and to estimate the minimum functional voltage (VMIN) degradation; and, 3) using the skew information across bitcells to create recovery vectors, which can be used to recover the aged PMOSs and thereby rebalance the skews. Existing in-situ techniques using ring oscillators or current sensors to sense bitcell reliability and performance cannot support in-field operation, which is a critical issue for DRM since it is impractical to control environmental parameters, particularly temperature, during sensing.
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