Synthesis of symmetric functions for path-delay fault testability

Proceedings Twelfth International Conference on VLSI Design. (Cat. No.PR00013) Pub Date : 1999-01-10 DOI:10.1109/ICVD.1999.745206

S. Chakrabarti, Sandip Das, D. K. Das, B. Bhattacharya

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引用次数: 20

Abstract

A new technique of synthesizing symmetric Boolean functions is presented that achieves complete robust path-delay fault testability. We show that every consecutive symmetric function can be expressed as a logical composition (e.g., AND, NOR) of two unate symmetric functions, and the resulting composite circuit will be 100% robustly path-delay fault testable, if the constituent unate functions are synthesized with two-level irredundant circuits. Non-consecutive symmetric functions can also be synthesized by decomposing them into a set of consecutive symmetric functions. The hardware overhead of the proposed design can further be reduced by a novel algebraic factorization technique based on some combinatorial clues. The overall synthesis guarantees complete robust path-delay fault testability, and can be completed in linear time. The results reveal that the proposed method ensures a significant reduction in hardware, as well as in the number of paths, which in turn reduces testing time as compared to those of the best known earlier methods.

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路径延迟故障可测性的对称函数综合

提出了一种合成对称布尔函数的新方法，实现了完全鲁棒路径延迟故障可测性。我们证明了每个连续对称函数都可以表示为两个单对称函数的逻辑组合(例如，AND, NOR)，并且如果组成单函数与两级非冗余电路合成，则所得到的复合电路将是100%鲁棒路径延迟故障可测试的。非连续对称函数也可以通过分解成一组连续对称函数来合成。基于一些组合线索的代数分解技术可以进一步降低所提出设计的硬件开销。整体综合保证了完整的鲁棒路径延迟故障可测性，并可在线性时间内完成。结果表明，所提出的方法确保了硬件的显著减少，以及路径的数量，这反过来又减少了测试时间，与那些最著名的早期方法相比。

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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来源期刊

Proceedings Twelfth International Conference on VLSI Design. (Cat. No.PR00013)

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