An efficient error-masking technique for improving the soft-error robustness of static CMOS circuits

IEEE International SOC Conference, 2004. Proceedings. Pub Date : 2004-11-30 DOI:10.1109/SOCC.2004.1362416

S. Krishnamohan, N. Mahapatra

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引用次数: 11

Abstract

Soft-errors are functional failures resulting from the latching of single-event transients (transient voltage fluctuations at a logic node or SETs) caused by electrical noise or high-energy particle strikes. Due to technology scaling and reduced supply voltages, they are expected to increase by several orders of magnitude in logic circuits in the near future. Existing circuit and architectural solutions are inadequate because they have appreciable area/cost, performance, and/or power overheads. We present a very efficient and systematic error-masking technique for static CMOS combinational circuits that prevents an SET pulse, with width, in the worst case, less than approximately half of the timing slack available in its propagation path, from latching and turning into a soft error. The SET is masked without additional delay and within the clock cycle time in an area-efficient manner, which makes this technique applicable to commodity as well as reliability-critical applications. Application of this technique to ISCAS85 benchmark circuits yields average soft-error rate reduction of 75.71% with average area overhead of only 18.14%.

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一种提高静态CMOS电路软误差鲁棒性的有效错误屏蔽技术

软错误是由电噪声或高能粒子撞击引起的单事件瞬态(逻辑节点或set的瞬态电压波动)闭锁引起的功能故障。由于技术缩放和降低电源电压，在不久的将来，它们有望在逻辑电路中增加几个数量级。现有的电路和架构解决方案是不够的，因为它们具有可观的面积/成本、性能和/或功率开销。我们提出了一种用于静态CMOS组合电路的非常有效和系统的错误屏蔽技术，该技术可以防止SET脉冲，在最坏的情况下，宽度小于其传播路径中可用时间松弛的大约一半，从锁存并变成软误差。SET被屏蔽，没有额外的延迟，并且在时钟周期时间内以一种区域高效的方式，这使得该技术适用于商品和可靠性关键应用。将该技术应用于ISCAS85基准电路，平均软错误率降低75.71%，平均面积开销仅为18.14%。

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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IEEE International SOC Conference, 2004. Proceedings.

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