A pseudo-dynamic comparator for error detection in fault tolerant architectures

2012 IEEE 30th VLSI Test Symposium (VTS) Pub Date : 2012-04-23 DOI:10.1109/VTS.2012.6231079

D. Tran, A. Virazel, A. Bosio, L. Dilillo, P. Girard, A. Todri, M. Imhof, H. Wunderlich

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引用次数: 17

Abstract

Although CMOS technology scaling offers many advantages, it suffers from robustness problem caused by hard, soft and timing errors. The robustness of future CMOS technology nodes must be improved and the use of fault tolerant architectures is probably the most viable solution. In this context, Duplication/Comparison scheme is widely used for error detection. Traditionally, this scheme uses a static comparator structure that detects hard error. However, it is not effective for soft and timing errors detection due to the possible masking of glitches by the comparator itself. To solve this problem, we propose a pseudo-dynamic comparator architecture that combines a dynamic CMOS transition detector and a static comparator. Experimental results show that the proposed comparator detects not only hard errors but also small glitches related to soft and timing errors. Moreover, its dynamic characteristics allow reducing the power consumption while keeping an equivalent silicon area compared to a static comparator. This study is the first step towards a full fault tolerant approach targeting robustness improvement of CMOS logic circuits.

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容错体系结构中用于错误检测的伪动态比较器

尽管CMOS技术的缩放具有许多优点，但它也存在由硬误差、软误差和时序误差引起的鲁棒性问题。未来CMOS技术节点的稳健性必须得到改进，使用容错架构可能是最可行的解决方案。在这种情况下，复制/比较方案被广泛用于错误检测。传统上，该方案使用检测硬错误的静态比较器结构。然而，由于比较器本身可能掩盖小故障，它对软错误和定时错误检测无效。为了解决这个问题，我们提出了一种结合动态CMOS跃迁检测器和静态比较器的伪动态比较器架构。实验结果表明，该比较器不仅可以检测到硬误差，还可以检测到与软误差和定时误差相关的小故障。此外，它的动态特性允许降低功耗，同时保持与静态比较器相当的硅面积。这项研究是迈向完全容错方法的第一步，目标是提高CMOS逻辑电路的鲁棒性。

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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2012 IEEE 30th VLSI Test Symposium (VTS)

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