单串扰故障和多串扰故障的基因检测生成

2020 Wave Electronics and its Application in Information and Telecommunication Systems (WECONF) Pub Date : 2020-06-01 DOI:10.1109/WECONF48837.2020.9131486

Y. Skobtsov

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引用次数: 0

摘要

考虑了串扰故障的主要模型:诱导正脉冲和诱导负脉冲、诱导延迟。提出了一种多值字母表中交叉断层的建模方法。在此基础上，提出了一种用于单交叉故障测试生成的遗传算法。研究了类型诱导延迟故障的测试生成问题。提出了一种多干扰线诱导延迟故障测试生成的遗传算法。结果表明，在组合数字电路中，将遗传算法和多值事件驱动仿真技术应用于多值字母表中，可以有效地解决串扰故障的测试生成问题，并具有较高的故障覆盖率。

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Genetic Test Generation for Single and Multiple Crosstalk Faults

The main models of crosstalk faults are considered: induced positive and negative pulses, induced delays. A method for modeling cross-faults in a multivalued alphabet was developed. On this basis, a genetic algorithm has been developed for test generation for single cross-faults. The problem of test generation for faults of the type induced delay is considered. A genetic algorithm for test generation for induced delay faults with many aggressor lines is proposed. It was shown for combinational digital circuits application of genetic algorithms and multivalued event-driven simulation in multivalued alphabet allows effectively solve test generation problem for crosstalk faults and gives high fault coverage.

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2020 Wave Electronics and its Application in Information and Telecommunication Systems (WECONF)

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