Title :
Gate delay fault test generation for non-scan circuits
Author :
van Brakel, G. ; Gläser, U. ; Kerkhoff, H.G. ; Vierhaus, H.T.
Author_Institution :
MESA Res. Inst., Twente Univ., Enschede, Netherlands
Abstract :
This article presents a technique for the extension of delay fault test pattern generation to synchronous sequential circuits without making use of scan techniques. The technique relies on the coupling of TDgen, a robust combinational test pattern generator for delay faults, and SEMILET, a sequential test pattern generator for several static fault models. The approach uses a forward propagation-backward justification technique: The test pattern generation is started at the fault location, and after successful “local” test generation fault effect propagation is performed and finally a synchronising sequence to the required state is computed. The algorithm is complete for a robust gate delay fault model, which means that for every testable fault a test will be generated, assuming sufficient time. Experimental results for the ISCAS´89 benchmarks are presented in this paper
Keywords :
automatic testing; delays; fault location; integrated circuit testing; integrated logic circuits; logic testing; sequential circuits; ATPG; FOGBUSTER algorithm; SEMILET; TDgen; fault location; forward propagation-backward justification technique; gate delay fault test generation; nonscan circuits; robust combinational test pattern generator; sequential test pattern generator; static fault models; synchronous sequential circuits; Benchmark testing; Circuit faults; Circuit testing; Coupling circuits; Delay effects; Fault location; Performance evaluation; Robustness; Sequential circuits; Test pattern generators;
Conference_Titel :
European Design and Test Conference, 1995. ED&TC 1995, Proceedings.
Conference_Location :
Paris
Print_ISBN :
0-8186-7039-8
DOI :
10.1109/EDTC.1995.470379
