Title :
Design of a reliable and self-testing VLSI datapath using residue coding techniques
Author :
Kinniment, D.J. ; Sayers, I.L. ; Chester, E.G.
Author_Institution :
University of Newcastle upon Tyne, Department of Electrical & Electronic Engineering, Newcastle upon Tyne, UK
fDate :
5/1/1986 12:00:00 AM
Abstract :
The testing of VLSI circuits is becoming progressively more difficult as device densities increase. This has brought about several proposals for designing VLSI circuits with testability built in. A method is presented in the paper for the design of easily testable VLSI circuits with a view to producing fault tolerant systems. A microprocessor datapath is used to illustrate the technique. The method used for checking the VLSI devices is an error detecting code, in this case a residue code. Residue codes offer several advantages over linear block codes for providing testability in a wide range of VLSI circuits. A detailed evaluation of the increase in chip area required to produce a self testing chip is also given in the paper.
Keywords :
VLSI; circuit theory; fault tolerant computing; integrated circuit testing; VLSI circuits; VLSI datapath; device densities; error detecting code; fault tolerant systems; inbuilt testability; linear block codes; microprocessor datapath; residue code; residue coding techniques; self testing chip; testable VLSI circuits;
Journal_Title :
Computers and Digital Techniques, IEE Proceedings E
DOI :
10.1049/ip-e.1986.0022
