非扫描顺序电路中原始故障测试的产生

1998 IEEE/ACM International Conference on Computer-Aided Design. Digest of Technical Papers (IEEE Cat. No.98CB36287) Pub Date : 1998-11-01 DOI:10.1145/288548.288625

R. Tekumalla, P. R. Menon

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引用次数: 2

摘要

提出了一种识别非扫描顺序电路中原始路径延迟故障的方法，并对所有可鲁棒测试的原始故障生成鲁棒测试。它使用了早期论文中介绍的敏感立方体的概念和一种新的，更有效的算法来生成它们。下一状态和输出逻辑的敏化立方体用于获得静态敏化向量，该静态敏化向量可作为矢量对的一部分应用于非扫描顺序电路。这些向量对也用于推导鲁棒性测试。从复位状态初始化序列和从触发器到主输出传播故障影响的序列也被生成。该方法已在ISCAS'89和MCNC'91基准电路中实现并应用于原始故障测试。

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On primitive fault test generation in non-scan sequential circuits

A method is presented for identifying primitive path-delay faults in non-scan sequential circuits and generating robust tests for all robustly testable primitive faults. It uses the concept of sensitizing cubes introduced in an earlier paper and a new, more efficient algorithm for generating them. Sensitizing cubes of the next-state and output logic are used to obtain static sensitizing vectors that can be applied to the non-scan sequential circuit as part of a vector-pair. These vector-pairs are also used in deriving robust tests. Initializing sequences from a reset state and sequences that propagate fault effects from flip-flops to primary outputs are also generated. The proposed method has been implemented and used to derive tests for primitive faults in ISCAS'89 and MCNC'91 benchmark circuits.

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来源期刊

1998 IEEE/ACM International Conference on Computer-Aided Design. Digest of Technical Papers (IEEE Cat. No.98CB36287)

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