LT-RTPG: a new test-per-scan BIST TPG for low heat dissipation

Author

Wang, Seongmoon ; Gupta, Sandeep K.

Author_Institution

3Dfx Interactive, USA

fYear

1999

fDate

1999

Firstpage

85

Lastpage

94

Abstract

A new BIST TPG design, called low-transition random TPG (LT-RTPG), that is comprised of an LFSR, a k-input AND gate, and a T flip-flop, is presented. When used to generate test patterns for test-per-scan BIST, it decreases the number of transitions that occur during scan shifting and hence decreases the heat dissipated during testing. Various properties of LT-RTPGs are studied and a methodology for their design is presented. Experimental results demonstrate that LT-RTPGs designed using the proposed methodology decrease the heat dissipated during BIST by significant amounts while attaining high fault coverage, especially for circuits with moderate to large number of scan inputs

Keywords

automatic test pattern generation; binary sequences; boundary scan testing; built-in self test; design for testability; fault simulation; integrated circuit testing; logic testing; shift registers; LFSR; T flip-flop; fault simulation; high fault coverage; k-input AND gate; low heat dissipation; low-transition random TPG; scan shifting; sequential CUT; tap configurations; test pattern generation; test-per-scan BIST TPG; toggle probability; Automatic testing; Built-in self-test; Circuit faults; Circuit noise; Circuit testing; Flip-flops; Inductance; Switching circuits; Temperature; Test pattern generators;

fLanguage

English

Publisher

ieee

Conference_Titel

Test Conference, 1999. Proceedings. International

Conference_Location

Atlantic City, NJ

ISSN

1089-3539

Print_ISBN

0-7803-5753-1

Type

conf

DOI

10.1109/TEST.1999.805617

Filename

805617