BiTeS: a BDD based test pattern generator for strong robust path delay faults
EURO-DAC '94 Proceedings of the conference on European design automation
Computing two-pattern test cubes for transition path delay faults
IEEE Transactions on Very Large Scale Integration (VLSI) Systems
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The authors present DYNAMITE, a versatile and efficient automatic test pattern generation system for path delay fault. Based upon a ten-valued and a three-valued logic, the deterministic test pattern generation algorithm incorporated in DYNAMITE is capable of generating both robust and nonrobust tests for path delay faults. Particular emphasis has been placed on coping with the main disadvantage of the path delay fault model. The distinct features of DYNAMITE consist of the application of a powerful implication procedure and a stepwise path sensitization procedure, which has the capability of proving large numbers of path faults as redundant by a single test generation attempt. The delay test generation process is further optimized by the use of a new path selection procedure which aims at the identification of paths, which can successfully be sensitized, and the elimination of redundant, i.e., unsensitizable, paths