SAT-ATPG Generated Multi-Pattern Scan Tests for Cell Internal Defects: Coverage Analysis for Resistive Opens and Shorts

Abstract

Recent advances in process technology have resulted in novel defect mechanisms making the test generation process very challenging. In addition to complete opens and shorts that can be represented via extreme defect resistance magnitudes, partial resistive opens and shorts are also of concern in deeply scaled CMOS technologies. For open defects with intermediate defect magnitude values, it has been shown that multi-pattern tests are necessary for defect exposure. We extend this approach to short defects with intermediate defect magnitude values to obtain a suite of multi-pattern tests for standard cell instances that cover complete as well as partial intra-cell open and short defects. A hierarchical scan-compatible SAT-based test generation approach for full scan sequential circuits is then proposed that allows such multi-pattern tests to be applied to the circuit via the scan infrastructure. A key innovation is the combined use of shift and capture operations along with launch-on-capture and launch-on-shift scan based test application for increased defect coverage. Resulting defect coverage improvements over conventional two-pattern tests are demonstrated on ISCAS89 benchmark circuits.