Derating based hardware optimizations in soft error tolerant designs

2012 IEEE 30th VLSI Test Symposium (VTS) Pub Date : 2012-04-23 DOI:10.1109/VTS.2012.6231067

V. Prasanth, Virendra Singh, R. Parekhji

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引用次数: 3

Abstract

Ensuring reliable operation over an extended period of time is one of the biggest challenges facing present day electronic systems. The increased vulnerability of the components to atmospheric particle strikes poses a big threat in attaining the reliability required for various mission critical applications. Various soft error mitigation methodologies exist to address this reliability challenge. A general solution to this problem is to arrive at a soft error mitigation methodology with an acceptable implementation overhead and error tolerance level. This implementation overhead can then be reduced by taking advantage of various derating effects like logical derating, electrical derating and timing window derating, and/or making use of application redundancy, e.g. redundancy in firmware/software executing on the so designed robust hardware. In this paper, we analyze the impact of various derating factors and show how they can be profitably employed to reduce the hardware overhead to implement a given level of soft error robustness. This analysis is performed on a set of benchmark circuits using the delayed capture methodology. Experimental results show up to 23% reduction in the hardware overhead when considering individual and combined derating factors.

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软容错设计中基于降额的硬件优化

确保长时间的可靠运行是当今电子系统面临的最大挑战之一。组件对大气粒子撞击的脆弱性增加，对实现各种关键任务应用所需的可靠性构成了巨大威胁。存在各种软错误缓解方法来解决这一可靠性挑战。此问题的一般解决方案是采用具有可接受的实现开销和容错级别的软错误缓解方法。这种实现开销可以通过利用各种降额效果(如逻辑降额、电气降额和定时窗口降额)和/或利用应用程序冗余来减少，例如在如此设计的健壮硬件上执行固件/软件的冗余。在本文中，我们分析了各种降额因素的影响，并展示了如何有效地利用它们来减少硬件开销，以实现给定级别的软错误鲁棒性。该分析是在一组使用延迟捕获方法的基准电路上执行的。实验结果表明，在考虑单个和组合降额因素时，硬件开销减少了23%。

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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