A framework for finding minimal test vectors for stuck-at-faults

2009 International Conference on Information and Communication Technologies Pub Date : 2009-09-25 DOI:10.1109/ICICT.2009.5267180
A. Beg, S. K. Hasnain
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Abstract

This paper presents a framework that utilizes Boolean Difference theory to find test vectors for stuck-at-fault detection. The framework reads in structural-style Verilog models, and automatically injects single stuck-at-faults (either stuck-at-zero or stuck-at-one) into the models. The simulations are then performed to find minimal sets of test vectors. Using this setup, we conducted experiments on more than 4000 different circuits. The results show that an appreciable savings in test time and effort can be achieved using the method. The same setup can also be used for didactic purposes, specifically for digital design and test courses.
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寻找卡在故障最小测试向量的框架
本文提出了一个利用布尔差分理论寻找卡故障检测测试向量的框架。框架读取结构风格的Verilog模型,并自动将单个卡在故障(卡在0或卡在1)中注入模型。然后进行模拟以找到最小的测试向量集。使用这种设置,我们在4000多个不同的电路上进行了实验。结果表明,使用该方法可以显著节省测试时间和精力。同样的设置也可以用于教学目的,特别是数字设计和测试课程。
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2009 International Conference on Information and Communication Technologies
2009 International Conference on Information and Communication Technologies
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