Title :
9-V Algorithm for Test Pattern Generation of Combinational Digital Circuits
Author :
Cha, Charles W. ; Donath, William E. ; Özgüner, Füsun
Author_Institution :
IBM SPD East Fishkill
fDate :
3/1/1978 12:00:00 AM
Abstract :
An algorithm for generating test patterns for combinational circuits has been developed and programmed. The algorithm is definitive and finds a test for all faults including those that require multiple paths to be sensitized, by sensitizing a single path at a time and trying at most each single path. This is achieved by using a new calculus based on nine values (0,1,D,D̄,0/D,0/D̄, 1/D,1/D̄,U). One path is deliberately sensitized while the alternative paths are assigned values which permit the option of desensitizing or sensitizing them as the sensitized path is developed. Experimental results are presented for a variety of cases.
Keywords :
Backward implication; fault; forward forcing; multiple paths; sensitized path; testing; Calculus; Circuit faults; Circuit testing; Combinational circuits; Digital circuits; Electrical fault detection; Helium; Mathematical model; Pattern recognition; Test pattern generators; Backward implication; fault; forward forcing; multiple paths; sensitized path; testing;
Journal_Title :
Computers, IEEE Transactions on
DOI :
10.1109/TC.1978.1675071
