Random pattern testability of control and address circuitry of an embedded memory with feed-forward data-path connections

Document Type

Article

Publication Date

12-1-1999

Abstract

Of late some interesting and useful work has been done on the problem of testing logic surrounding embedded memories. This work assumes that the logic surrounding the memory is functionally partitioned and that the different partitions are logically isolated one from the other. This paper expands upon past work using a more flexible design rule which allows feed-forward connections between the data-path Prelogic and Postlogic. The connections are such that there is no feedback from the memory outputs to its inputs, and both the Prelogic and the Postlogic are disconnected from the Address and Control logic. Under this design rule we show the auxiliary circuits used to determine the random pattern testability of faults in the circuitry driving the address inputs and the controls of the two-port memory. The techniques described herein are intended to be used in conjunction with the cutting algorithm for testability measurement in built-in self-test (BIST) designs, but may also be suitable for use with other detection probability tools and simulation tools.

Identifier

0033351194 (Scopus)

Publication Title

Journal of Electronic Testing Theory and Applications JETTA

External Full Text Location

https://doi.org/10.1023/A:1008345026085

ISSN

09238174

First Page

279

Last Page

296

Issue

3

Volume

15

Fund Ref

State of New Jersey Commission on Science and Technology

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