Redundant logic insertion and fault tolerance improvement in combinational circuits

2017 International Conference on Circuits, System and Simulation (ICCSS) Pub Date : 2017-07-01 DOI:10.1109/CIRSYSSIM.2017.8023171

Padmanabhan Balasubramanian, R. T. Naayagi

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引用次数: 8

Abstract

This paper presents a novel method to identify and insert redundant logic into a combinational circuit to improve its fault tolerance without having to replicate the entire circuit as is the case with conventional redundancy techniques. In this context, it is discussed how to estimate the fault masking capability of a combinational circuit using the truth-cum-fault enumeration table, and then it is shown how to identify the logic that can introduced to add redundancy into the original circuit without affecting its native functionality and with the aim of improving its fault tolerance though this would involve some trade-off in the design metrics. However, care should be taken while introducing redundant logic since redundant logic insertion may give rise to new internal nodes and faults on those may impact the fault tolerance of the resulting circuit. The combinational circuit that is considered and its redundant counterparts are all implemented in semi-custom design style using a 32/28nm CMOS digital cell library and their respective design metrics and fault tolerances are compared.

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组合电路中冗余逻辑插入与容错改进

本文提出了一种新的方法来识别和插入冗余逻辑到一个组合电路中，以提高其容错性，而不必像传统的冗余技术那样复制整个电路。在这种情况下，讨论了如何使用真值和故障枚举表来估计组合电路的故障屏蔽能力，然后展示了如何识别可以引入的逻辑，以增加冗余到原始电路中，而不影响其原有功能，并以提高其容错性为目的，尽管这将涉及设计指标中的一些权衡。但是，在引入冗余逻辑时应该小心，因为冗余逻辑插入可能会产生新的内部节点，并且这些节点上的故障可能会影响最终电路的容错性。所考虑的组合电路及其冗余对应电路都采用半定制设计风格，使用32/28nm CMOS数字单元库实现，并比较了它们各自的设计指标和容错性。

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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2017 International Conference on Circuits, System and Simulation (ICCSS)

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