Self-checking circuits versus realistic faults in very deep submicron

Author

Anghel, Lorena ; Nicolaidis, Michael ; Alzaher-Noufal, Issam

Author_Institution

TIMA, France

fYear

2000

fDate

2000

Firstpage

55

Lastpage

63

Abstract

IC technologies are approaching the ultimate limits of silicon in terms of device size, power supply levels and speed. By approaching these limits, circuits are becoming increasingly sensitive to noise as well as to small manufacturing defects that may result in spurious faults. Such faults are difficult to (or can not) be detected by manufacturing testing and will result in unacceptable rates of errors in the field. Self-checking design can be used to cope with this problem, but usually it addresses logic faults. This paper analyzes the behavior of self-checking circuits under various spurious faults likely to occur in very deep submicron technologies

Keywords

ULSI; built-in self test; fault simulation; integrated circuit testing; production testing; IC technologies; device size; manufacturing defects; noise; power supply levels; realistic faults; self-checking circuits; speed; spurious faults; very deep submicron; Circuit faults; Costs; Error analysis; Fault detection; Integrated circuit noise; Logic; Neutrons; Noise reduction; Power supplies; Testing;

fLanguage

English

Publisher

ieee

Conference_Titel

VLSI Test Symposium, 2000. Proceedings. 18th IEEE

Conference_Location

Montreal, Que.

ISSN

1093-0167

Print_ISBN

0-7695-0613-5

Type

conf

DOI

10.1109/VTEST.2000.843827

Filename

843827