On-chip testing of random access memories

Abstract

This article gives an overview of the Built-In Self-Test techniques for stand alone Random-Access Memory chips. It identifies the limitations of the existing fault models and the test algorithms used to test large RAMs. Methods to reduce test time for testing large RAMs are categorized. The article argues that even linear time test algorithms must use architecture and design for testability induced parallelisms to keep the total test time to an acceptable limit. Following that two algorithms are presented that can be used to test large RAMs for neighborhood pattern sensitive faults. Test lengths and test time for application of these algorithms are computed and it is suggested that a microprogrammed controller based scheme be used to implement self-test in stand alone RAMs.