Low hardware overhead scan based 3-weight weighted random BIST

Author

Wang, Seongmoon

Author_Institution

C&C Res. Labs., NEC, Princeton, NJ, USA

fYear

2001

fDate

2001

Firstpage

868

Lastpage

877

Abstract

Two noble scan based BIST architectures, namely parallel fixing and serial fixing BIST, which can be implemented at very low hardware cost even for random pattern resistant circuits that have large number of scan elements, are proposed. Both of the proposed BIST schemes use 3-weight weighted random BIST techniques to reduce test sequence lengths by improving detection probabilities of random pattern resistant faults. A special ATPG is used to generate suitable test cube sets that lead to BIST circuits that require minimum hardware overhead. Experimental results show that the proposed BIST schemes can attain 100% fault coverage for all of benchmark circuits with drastically reduced test sequence lengths. This reduction in test sequence length is achieved at low hardware cost even for benchmark circuits that have large number scan inputs

Keywords

automatic test pattern generation; built-in self test; integrated circuit testing; logic testing; probability; sequences; 3-weight weighted random BIST techniques; ATPG; detection probability improvement; fault coverage; low hardware cost; noble scan based BIST architectures; parallel fixing BIST; random pattern resistant circuits; random pattern resistant faults; serial fixing BIST; test cube sets generation; test sequence length reduction; Automatic test pattern generation; Automatic testing; Built-in self-test; Circuit faults; Circuit testing; Clocks; Costs; Fault detection; Hardware; Test pattern generators;

fLanguage

English

Publisher

ieee

Conference_Titel

Test Conference, 2001. Proceedings. International

Conference_Location

Baltimore, MD

ISSN

1089-3539

Print_ISBN

0-7803-7169-0

Type

conf

DOI

10.1109/TEST.2001.966709

Filename

966709