Title :
Testing “untestable” faults in three-state circuits
Author :
Wohl, Peter ; Waicukauski, John ; Graf, Matthew
Author_Institution :
Microelectron. Div., IBM Corp., Essex Junction, VT, USA
fDate :
28 Apr-1 May 1996
Abstract :
High-performance, complex CMOS designs such as microprocessors continue to gain performance by the use of “non-conventional” circuits such as tri-state, ratio or precharged logic. Such circuits are also used in noncomplementary or DC-redundant structures. While such design styles are not really new, their widespread use in very large, complex circuits (e.g., microprocessors) make “conventional” fault modeling and test generation ineffective. This paper describes test generation techniques to handle such circuits without affecting their performance or area. These techniques exploit circuit particularities of noncomplementary CMOS design in fault modeling, use automatic learning of useful relations about nodes in the design, and innovative test vector generation. On several designs ranging up to 2.5 million gates, the combined application of these methods increased test coverage from 50% to 100% while decreasing CPU time by orders of magnitude
Keywords :
CMOS logic circuits; automatic testing; computer testing; fault diagnosis; integrated circuit testing; logic testing; multivalued logic circuits; CPU time; automatic learning; circuit particularities; complex CMOS designs; nonconventional circuits; test coverage; test generation techniques; test vector generation; three-state circuits; untestable faults; CMOS logic circuits; Circuit faults; Circuit testing; Clocks; Driver circuits; Impedance; Microelectronics; Microprocessors; Semiconductor device modeling; Switches;
Conference_Titel :
VLSI Test Symposium, 1996., Proceedings of 14th
Conference_Location :
Princeton, NJ
Print_ISBN :
0-8186-7304-4
DOI :
10.1109/VTEST.1996.510875
