Static test compaction for multiple full-scan circuits

Current design methodologies and methodologies for reducing test data volume and test application time for full-scan circuits allow testing of multiple circuits (or subcircuits of the same circuit) simultaneously using the same test data. We describe a static compaction procedure that accepts test sets generated independently for multiple full-scan circuits, and produces a compact test set that detects all the faults detected by the individual test sets. The resulting test set can be used for testing the circuits simultaneously using the same test data. This procedure provides an alternative to test generation procedures that perform test generation for complex circuits made up of multiple circuits. Such procedures also reduce the amount of test data and test application time required for testing all the circuits by testing them simultaneously using the same test data. However, they require consideration of a more complex circuit.

[1]  Nilanjan Mukherjee,et al.  Embedded deterministic test for low cost manufacturing test , 2002, Proceedings. International Test Conference.

[2]  Janak H. Patel,et al.  Reducing test application time for full scan embedded cores , 1999, Digest of Papers. Twenty-Ninth Annual International Symposium on Fault-Tolerant Computing (Cat. No.99CB36352).

[3]  Krishnendu Chakrabarty,et al.  Frequency-directed run-length (FDR) codes with application to system-on-a-chip test data compression , 2001, Proceedings 19th IEEE VLSI Test Symposium. VTS 2001.

[4]  Brion L. Keller,et al.  OPMISR: the foundation for compressed ATPG vectors , 2001, Proceedings International Test Conference 2001 (Cat. No.01CH37260).

[5]  Kuen-Jong Lee,et al.  Using a single input to support multiple scan chains , 1998, ICCAD '98.

[6]  Huaguo Liang,et al.  Two-dimensional test data compression for scan-based deterministic BIST , 2001, Proceedings International Test Conference 2001 (Cat. No.01CH37260).

[7]  Nur A. Touba,et al.  Reducing test data volume using external/LBIST hybrid test patterns , 2000, Proceedings International Test Conference 2000 (IEEE Cat. No.00CH37159).

[8]  Alex Orailoglu,et al.  Test volume and application time reduction through scan chain concealment , 2001, Proceedings of the 38th Design Automation Conference (IEEE Cat. No.01CH37232).

[9]  Sandeep K. Gupta,et al.  A methodology to design efficient BIST test pattern generators , 1995, Proceedings of 1995 IEEE International Test Conference (ITC).

[10]  Isabelle Sagnes,et al.  Proceedings 21st International Conference on Computer Design , 2000, Proceedings 21st International Conference on Computer Design.

[11]  Nur A. Touba,et al.  Virtual scan chains: a means for reducing scan length in cores , 2000, Proceedings 18th IEEE VLSI Test Symposium.