Title :
The design of a C-testable parallel multiplier using a graph-theoretic approach
Author :
Hadjinicolaou, M.G. ; Burgess, N.
Author_Institution :
Dept. of Electr. Eng. & Electron., Brunel Univ., Uxbridge, UK
Abstract :
Describes a novel graph-theoretic test pattern generation technique for a parallel multiplier. The graph can be modified by making use of the `don´t care´ cell input vectors without affecting the overall array function such that the array structure becomes C-testable. The required number of test patterns and test modes to test this array is 14 with 14 input vectors and 5 respectively compared with 16 test patterns and 16 input vectors and 6 test modes in the current literature. Using the concept of C-testability the authors can minimize the extra hardware for testing iterative array structures
Keywords :
VLSI; digital integrated circuits; integrated circuit testing; multiplying circuits; C-testability; C-testable; design for testing; don´t care cells; graph-theoretic approach; graph-theoretic test pattern generation technique; number of test patterns; parallel multiplier; test modes; testing iterative array structures;
Conference_Titel :
Design for Testability, IEE Colloquium on
Conference_Location :
London
