Abstract

Originally developed decades ago, logic built-in self-test (BIST) evolved and is now increasingly being adopted to cope with rapid growth in design size and complexity. Compared to deterministic pattern test, logic BIST requires many more test patterns, and therefore, increased test time unless many more internal scan chains can be shifted in parallel. To match this large number of scan chains, the width of the signature analyzer would have to be enlarged, which would result in large area overhead and signature storage space. Instead, a combinational space-compactor is inserted between the scan chain outputs and the signature analyzer inputs. However, the compactor may deteriorate the ability to test and diagnose the design. This paper analyzes how compactors affect test and diagnosis and shows that compactors can be designed to actually improve the testability of certain faults, while providing full diagnosis capability. Algorithms that allow automated design of optimal compactors are presented and results are discussed.