Optimized synthesis of self-testable finite state machines

Author

Eschermann, B. ; Wunderlich, H.-J.

Author_Institution

Inst. fuer Rechnerentwurf & Fehlertoleranz, Karlsruhe Univ., West Germany

fYear

1990

fDate

26-28 June 1990

Firstpage

390

Lastpage

397

Abstract

A synthesis procedure for self-testable finite state machines is presented. Testability comes under consideration when the behavioral description of the circuit is being transformed into a structural description. To this end, a novel state encoding algorithm, as well as a modified self-test architecture, is developed. Experimental results show that this approach leads to a significant reduction of hardware overhead. Self-testing circuits generally employ linear feedback shift registers for pattern generation. The impact of choosing a particular feedback polynomial on the state encoding is discussed.<>

Keywords

built-in self test; encoding; feedback; finite automata; logic testing; sequential machines; shift registers; behavioral description; feedback polynomial; hardware overhead; linear feedback shift registers; optimised synthesis; pattern generation; self-testable finite state machines; state encoding algorithm; structural description; Automata; Built-in self-test; Circuit synthesis; Circuit testing; Encoding; Feedback circuits; Hardware; Linear feedback shift registers; Polynomials; State feedback;

fLanguage

English

Publisher

ieee

Conference_Titel

Fault-Tolerant Computing, 1990. FTCS-20. Digest of Papers., 20th International Symposium

Conference_Location

Newcastle Upon Tyne, UK

Print_ISBN

0-8186-2051-X

Type

conf

DOI

10.1109/FTCS.1990.89393

Filename

89393