Title :
K longest paths per gate (KLPG) test generation for scan-based sequential circuits
Author :
Qiu, Wangqi ; Wang, Jing ; Walker, D.M.H. ; Reddy, Divya ; Lu, Xiang ; Li, Zhuo ; Shi, Weiping ; Balachandran, Hari
Author_Institution :
Dept. of Comput. Sci., Texas A&M Univ., College Station, TX, USA
Abstract :
To detect the smallest delay faults at a fault site, the longest path(s) through it must be tested at full speed. Existing test generation tools are inefficient in automatically identifying the longest testable paths due to the high computational complexity. In this work a test generation methodology for scan-based synchronous sequential circuits is presented, under two at-speed test strategies used in industry. The two strategies are compared and the test generation efficiency is evaluated on ISCAS89 benchmark circuits and industrial designs. Experiments show that testing transition faults through the longest paths can be done in reasonable test set size.
Keywords :
automatic test pattern generation; boundary scan testing; built-in self test; computational complexity; fault diagnosis; logic testing; sequential circuits; ISCAS89 benchmark circuits; K longest paths per gate test generation; at-speed test methods; built-in self test; computational complexity; delay faults; industrial design; logic testing; longest testable paths; scan based synchronous sequential circuits; test generation tools; transition faults testing; Automatic testing; Circuit faults; Circuit testing; Computational complexity; Delay; Electrical fault detection; Fault detection; Sequential analysis; Sequential circuits; Synchronous generators;
Conference_Titel :
Test Conference, 2004. Proceedings. ITC 2004. International
Print_ISBN :
0-7803-8580-2
DOI :
10.1109/TEST.2004.1386956
