SAT-ATPG using preferences for improved detection of complex defect mechanisms

2012 IEEE 30th VLSI Test Symposium (VTS) Pub Date : 2012-04-23 DOI:10.1109/VTS.2012.6231098

A. Czutro, M. Sauer, Tobias Schubert, I. Polian, B. Becker

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引用次数: 18

Abstract

Failures caused by phenomena such as crosstalk or power-supply noise are gaining in importance in advanced nanoscale technologies. The detection of such complex defects benefits from the satisfaction of certain constraints, for instance justifying specific transitions on neighbouring lines of the defect location. We present a SAT-based ATPG-tool that supports the enhanced conditional multiple-stuck-at fault model (ECMS@). This model can specify multiple fault locations along with a set of hard conditions imposed on arbitrary lines; hard conditions must hold in order for the fault effect to become active. Additionally, optimisation constraints that may be required for best coverage can be specified via a set of soft conditions. The introduced tool justifies as many of these conditions as possible, using a mechanism known as SAT with preferences. Several applications are discussed and evaluated by extensive experimental data. Furthermore, a novel fault-clustering technique is introduced, thanks to which the time required to classify all stuck-at faults in a suite of industrial benchmarks was reduced by up to 65%.

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SAT-ATPG使用偏好来改进复杂缺陷机制的检测

在先进的纳米技术中，由串扰或电源噪声等现象引起的故障越来越重要。这种复杂缺陷的检测得益于对某些约束的满足，例如，在缺陷位置的邻近线上证明特定的转换。我们提出了一个基于sat的atpg工具，该工具支持增强型条件多重卡在故障模型(ECMS@)。该模型可以指定多个故障位置以及施加在任意线路上的一组硬性条件;为了使故障效应变得有效，必须保持硬条件。此外，最佳覆盖率所需的优化约束可以通过一组软条件来指定。引入的工具使用一种称为带有偏好的SAT机制，尽可能多地证明了这些条件。通过大量的实验数据对几种应用进行了讨论和评价。此外，还引入了一种新的故障聚类技术，由于该技术，在一套工业基准中对所有卡在故障进行分类所需的时间减少了65%。

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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2012 IEEE 30th VLSI Test Symposium (VTS)

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