On-Line Testing of Digital Circuits for n-Detect and Bridging Fault Models

14th Asian Test Symposium (ATS'05) Pub Date : 2005-12-18 DOI:10.1109/ATS.2005.85

S. Biswas, P. Srikanth, R. Jha, S. Mukhopadhyay, A. Patra, D. Sarkar

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引用次数: 20

Abstract

This work is concerned with the development of generic, non-intrusive and flexible algorithms for the design of digital circuits with on line testing (OLT) capability. Most of the works presented in the literature on OLT have used single stuck at fault models. However, in deep submicron era single s-a fault models may not capture more than a fraction of the real defects. To cater to the problem it is now advocated that additional fault models such as Bridging faults, Transition faults, Delay faults etc. are also used. The proposed technique is one of the first works that enables on-line detection of bridging faults and provides a high value of n for the n-Detect tests. The technique can handle generic digital circuits with cell count as high as 15,000 and having the order of 2500 states. Results for design of on-line detectors for various ISCAS89 benchmark circuits are provided. The results illustrate that with marginal increase in area overhead, if compared to ones with single s-a fault coverage, the proposed scheme also provides coverage for bridging faults and high value of n for n-Detect coverage.

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数字电路的n-检测和桥接故障模型在线测试

这项工作是关于开发通用的、非侵入性的和灵活的算法，用于设计具有在线测试(OLT)能力的数字电路。大多数关于OLT的文献都使用了单一的断层卡滞模型。然而，在深亚微米时代，单个s-a故障模型可能无法捕获实际缺陷的一小部分。为了解决这个问题，现在提倡使用额外的故障模型，如桥接故障、转换故障、延迟故障等。所提出的技术是第一个能够在线检测桥接故障并为n- detect测试提供高n值的工作之一。该技术可以处理高达15000个单元数、2500阶状态的通用数字电路。给出了各种ISCAS89基准电路在线检测器的设计结果。结果表明，与单s-a故障覆盖方案相比，在面积开销略有增加的情况下，该方案还提供了桥接故障的覆盖，并提供了高n值的n- detect覆盖。

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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14th Asian Test Symposium (ATS'05)

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