Improving diagnostic resolution of delay faults using path delay fault model

Proceedings. 21st VLSI Test Symposium, 2003. Pub Date : 2003-04-27 DOI:10.1109/VTEST.2003.1197673

A. Majhi, G. Gronthoud, C. Hora, M. Lousberg, Pop Valer, S. Eichenberger

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引用次数: 7

Abstract

The known methods of transition fault diagnosis usually suffer from the drawback of many candidates. The method presented in this paper aims at reducing the number of suspects. The transition fault patterns were generated by Philips in-house ATPG tool and applied on the tester. The fail information from tester was subjected to fault diagnosis resulting in a small list of faulty candidates. We then injected the delay faults into the golden netlist of the test chip and confirmed through simulation whether or not their behavior matched with the tester results. Upon successful matching, we proceeded with the selection of few testable paths through the suspect faulty node and created corresponding path delay patterns using the path delay ATPG (a prototype at the University of Bremen, developed in cooperation with Philips Semiconductors GmbH, Hamburg). Finally, we verified those path delay patterns on the tester to increase the confidence level of the diagnosis method The experimental results show the effectiveness of our novel approach for improving diagnostic resolution.

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利用路径延迟故障模型提高延迟故障的诊断分辨率

已知的过渡故障诊断方法存在候选点多的缺点。本文提出的方法旨在减少犯罪嫌疑人的数量。转换故障模式由飞利浦公司内部的ATPG工具生成，并应用于测试仪上。来自测试器的故障信息被用于故障诊断，从而产生一个小的故障候选列表。然后将延时故障注入到测试芯片的金网表中，通过仿真验证其行为是否与测试结果匹配。在成功匹配后，我们继续通过可疑故障节点选择少量可测试路径，并使用路径延迟ATPG(不来梅大学的原型，与汉堡飞利浦半导体公司合作开发)创建相应的路径延迟模式。最后，我们在测试机上验证了这些路径延迟模式，以提高诊断方法的置信度，实验结果表明了我们的新方法在提高诊断分辨率方面的有效性。

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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Proceedings. 21st VLSI Test Symposium, 2003.

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