Title :
An abstract approach to VLSI test
Author_Institution :
Dept. of Comput. Sci., Sheffield Univ., UK
Abstract :
Inherent imperfections in the VLSI fabrication processes mean that even logically correct designs may be fabricated as faulty chips. Testing of devices is therefore essential. The author considers the use of CCS to deduce testability features of VLSI. He shows first that a natural correspondence exists between circuit designs and a certain class of processes in CCS (a popular abstract language for reasoning about concurrent systems), and then use this correspondence to show how standard faults can economically be represented, and reasoned about. Questions considered include: given such and such a fault, when can it be detected? If a fault is detectable, to what extent can its location be identified? And given a design, can one construct a logically equivalent process of improved testability?
Keywords :
VLSI; automatic test equipment; digital integrated circuits; integrated circuit testing; logic CAD; production testing; VLSI test; abstract approach; abstract language; circuit designs; concurrent systems; design for testability; fault location; fault representation; production testing; standard faults; testability features;
Conference_Titel :
Design for Testability, IEE Colloquium on
Conference_Location :
London
