Combination of structural and state analysis for partial scan

Author

Sharma, Sameer ; Hsiao, Michael S.

Author_Institution

Intel Corp., Fremont, OR, USA

fYear

2001

fDate

2001

Firstpage

134

Lastpage

139

Abstract

Test generation complexity varies exponentially as the depth of cycles in the S-graph of the circuit. We map the hard-to-reach states obtained from a sequential test generator onto the cycles in the S-graph of the circuit. We then proceed to rank the cycles in terms of the testability gain that would result if the cycle were broken. The primary objective is not to cut all the cycles but to cut those cycles which are preventing the test generator from reaching these hard-to-reach states. To this end, we introduce new measures that combine conventional testability measures such as controllability and observability with the information from hard-to-reach states. We show that this approach overcomes some of the limitations of conventional cycle-cutting. This selective cutting of cycles is shown to yield better results in terms of fault coverage than conventional cycle-cutting

Keywords

circuit complexity; design for testability; fault diagnosis; graph theory; integrated circuit testing; logic testing; DFT; circuit S-graph; combined structural state analysis; controllability; depth of cycles; fault coverage; hard-to-reach states; observability; partial scan; selective cycle cutting; sequential test generator; test generation complexity; testability gain; testability measures; Automatic testing; Circuit faults; Circuit testing; Controllability; Electrical fault detection; Fault detection; Feedback circuits; Flip-flops; Observability; Sequential analysis;

fLanguage

English

Publisher

ieee

Conference_Titel

VLSI Design, 2001. Fourteenth International Conference on

Conference_Location

Bangalore

ISSN

1063-9667

Print_ISBN

0-7695-0831-6

Type

conf

DOI

10.1109/ICVD.2001.902652

Filename

902652