Title :
XPAND: an efficient test stimulus compression technique
Author :
Mitra, Subhasish ; Kim, Kee Sup
Author_Institution :
Intel Corp., Folsom, CA, USA
Abstract :
Combinational circuits implemented with exclusive-or gates are used for on-chip generation of deterministic test patterns from compressed seeds. Unlike major test compression techniques, this technique doesn´t require test pattern generation with don´t cares. Experimental results on industrial designs demonstrate that this new XPAND technique achieves exponential reduction in test data volume and test time compared to traditional scan and significantly outperforms existing test compression tools. The XPAND technique is currently being used by several industrial designs.
Keywords :
built-in self test; combinational circuits; logic gates; XPAND technique; built-in self test; combinational circuit; deterministic test pattern; exclusive-or gate; exponential reduction; industrial design; test stimulus compression technique; Automatic test pattern generation; Automatic testing; Circuit testing; Compaction; Costs; Design for testability; Logic design; Logic testing; Pins; Test pattern generators; Index Terms- Built-In Self Test (BIST); XPAND.; compaction; compression; testing;
Journal_Title :
Computers, IEEE Transactions on
