逻辑/时钟路径感知的快速扫描测试生成，以避免错误捕获失败和减少时钟拉伸

2015 IEEE 24th Asian Test Symposium (ATS) Pub Date : 2015-11-22 DOI:10.1109/ATS.2015.25

K. Asada, X. Wen, S. Holst, K. Miyase, S. Kajihara, M. Kochte, E. Schneider, H. Wunderlich, J. Qian

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引用次数: 7

摘要

在高速扫描测试中，由捕获模式下的发射切换活动(LSA)引起的红外下降不仅会增加逻辑路径(lp)上的延迟，还会增加时钟路径(Cps)上的延迟。由于错误捕获失败，lp上过多的额外延迟会影响测试产量，而cp上过多的额外延迟会由于测试时钟拉伸而影响测试质量。本文是第一个来减轻影响的LSA有限合伙人和CPs的小说LCPA(逻辑/时钟Path-Aware)速度扫描测试生成方案,包括(1)一种新的衡量标准来评估错误捕获失败的风险,基于LSA在有限合伙人和CPs的数量,(2)一个程序避免错误捕获失败通过减少LSA在有限合伙人或掩蔽不确定测试反应,和(3)程序减少测试时钟延伸通过减少LSA CPs周围。实验结果表明，LCPA方案在提高测试收率和测试质量方面是有效的。

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Logic/Clock-Path-Aware At-Speed Scan Test Generation for Avoiding False Capture Failures and Reducing Clock Stretch

IR-drop induced by launch switching activity (LSA) in capture mode during at-speed scan testing increases delay along not only logic paths (LPs) but also clock paths (Cps). Excessive extra delay along LPs compromises test yields due to false capture failures, while excessive extra delay along CPs compromises test quality due to test clock stretch. This paper is the first to mitigate the impact of LSA on both LPs and CPs with a novel LCPA (Logic/Clock Path-Aware) at-speed scan test generation scheme, featuring (1) a new metric for assessing the risk of false capture failures based on the amount of LSA around both LPs and CPs, (2) a procedure for avoiding false capture failures by reducing LSA around LPs or masking uncertain test responses, and (3) a procedure for reducing test clock stretch by reducing LSA around CPs. Experimental results demonstrate the effectiveness of the LCPA scheme in improving test yields and test quality.

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2015 IEEE 24th Asian Test Symposium (ATS)

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