基于sat的敏感路径分析

14th IEEE International Symposium on Design and Diagnostics of Electronic Circuits and Systems Pub Date : 2011-04-13 DOI:10.1109/DDECS.2011.5783055

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

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引用次数: 20

摘要

纳米技术中的制造缺陷具有高度复杂的时序行为，并且还受工艺变化的影响。虽然传统观点认为，通过最长的敏感路径来检测延迟缺陷是最佳的，但在测试生成过程中，非平凡缺陷行为以及建模不准确性需要考虑长度控制良好的路径。我们提出了一种通用的方法，通过用户指定长度的所有敏感路径产生测试。所得到的测试可以在自适应测试的框架内使用。该方法基于将问题编码为布尔可满足性(SAT)实例，从而利用了SAT求解技术的最新进展。

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SAT-based analysis of sensitisable paths

Manufacturing defects in nanoscale technologies have highly complex timing behaviour that is also affected by process variations. While conventional wisdom suggests that it is optimal to detect a delay defect through the longest sensitisable path, non-trivial defect behaviour along with modelling inaccuracies necessitate consideration of paths of well-controlled length during test generation. We present a generic methodology that yields tests through all sensitisable paths of user-specified length. The resulting tests can be employed within the framework of adaptive testing. The methodology is based on encoding the problem as a Boolean-satisfiability (SAT) instance and thereby leverages recent advances in SAT-solving technology.

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14th IEEE International Symposium on Design and Diagnostics of Electronic Circuits and Systems

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