Title :
Maximizing impossibilities for untestable fault identification
Author :
Hsiao, Michael S.
Author_Institution :
Bradley Dept. of Electr. & Comput. Eng., Virginia Polytech. Inst. & State Univ., Blacksburg, VA, USA
Abstract :
This paper presents a new fault-independent method for maximizing local conflicting value assignments for the purpose of untestable faults identification. The technique first computes a large number of logic implications across multiple time-frames and stores them in an implication graph. Then, by maximizing conflicting scenarios in the circuit, the algorithm identifies a large number of untestable faults that require such impossibilities. The proposed approach identifies impossible combinations locally around each Boolean gate in the circuit, and its complexity is thus linear in the number of nodes, resulting in short execution times. Experimental results for both combinational and sequential benchmark circuits showed that many more untestable faults can be identified with this approach efficiently
Keywords :
Boolean functions; automatic test pattern generation; combinational circuits; fault diagnosis; logic gates; logic testing; sequential circuits; ATPGs; Boolean gate; combinational benchmark circuits; conflicting scenarios; execution times; fault-independent method; impossible combinations; local conflicting value assignments; logic implications; multiple time-frames; sequential benchmark circuits; untestable fault identification; Automatic testing; Design automation; Europe;
Conference_Titel :
Design, Automation and Test in Europe Conference and Exhibition, 2002. Proceedings
Conference_Location :
Paris
Print_ISBN :
0-7695-1471-5
DOI :
10.1109/DATE.2002.998414
