Title :
Statistically estimating path delay fault coverage in combinational circuits
Author :
Zhang, Zaifu ; McLeod, Robert D. ; Miller, D. Michael ; Zhang, Shujian
Author_Institution :
Dept. of Electr. & Comput. Eng., Manitoba Univ., Winnipeg, Man., Canada
Abstract :
Presents a technique to statistically estimate path delay fault coverage. By partitioning a combinational circuit into non-overlapping fanout free logic cones, the authors accurately calculate the transition sensitization controllabilities of 0→1 and 1→0 transitions of the lines within a fanout free logic cone to the output of the fanout free logic cone for each fanout free logic cone. The detectability of a path delay fault is evaluated as the product of the observabilities of the input lane to its head gate within each fanout free logic cone on the path multiplied by the transition controllability of the path. As the estimation technique only requires fault-free simulation of a combinational circuit, it is efficient compared to accurate path delay fault simulation, and gives reasonably good path delay fault coverage estimation for the ISCAS85 benchmark circuits
Keywords :
VLSI; combinational circuits; delays; fault diagnosis; integrated circuit testing; logic partitioning; logic testing; observability; parameter estimation; statistical analysis; ISCAS85 benchmark circuits; combinational circuits; estimation technique; head gate; input lane; nonoverlapping fanout free logic cones; observabilities; path delay fault coverage; statistical estimation; transition sensitization controllabilities; Built-in self-test; Circuit faults; Circuit simulation; Circuit testing; Combinational circuits; Delay effects; Delay estimation; Electrical fault detection; Fault detection; Logic testing;
Conference_Titel :
Communications, Computers, and Signal Processing, 1995. Proceedings., IEEE Pacific Rim Conference on
Conference_Location :
Victoria, BC
Print_ISBN :
0-7803-2553-2
DOI :
10.1109/PACRIM.1995.519569
