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

Volume

133

Issue

3

fYear

1986

fDate

5/1/1986 12:00:00 AM

Firstpage

169

Lastpage

179

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;

fLanguage

English

Journal_Title

Computers and Digital Techniques, IEE Proceedings E

Publisher

iet

ISSN

0143-7062

Type

jour

DOI

10.1049/ip-e.1986.0022

Filename

4646782