Title :
Chip-level diagnostic strategy for full-scan designs with multiple faults
Author :
Lin, Yu-Chiun ; Huang, Shi-Yu
Author_Institution :
Dept. of Electr. Eng., Nat. Tsing-Hua Univ., Taiwan
Abstract :
Fault diagnosis of full-scan designs has been progressed significantly However, most existing techniques are aimed at a logic block with a single fault. Strategies on top of these block-level techniques are needed in order to successfully diagnose a large chip with multiple faults. In this paper, we present such a strategy. Our strategy is effective in identifying more than one fault accurately. It proceeds in two phases. In the first phase we concentrate on the identification of the so-called structurally independent faults based on a concept referred to as word-level prime candidate, while in the second phase we further trace the locations of the more elusive structural dependent faults. Experimental results show that this strategy is able to find 3 to 4 faults within 10 signal inspections for three designs randomly injected with 5 node-type or stuck-at faults.
Keywords :
VLSI; boundary scan testing; divide and conquer methods; fault simulation; integrated circuit testing; logic testing; chip-level diagnostic strategy; direct partitioning; divide-and-conquer strategy; fault diagnosis; fault locations; full-scan designs; gate-level netlist; inject-and-evaluate paradigm; logic blocks; multiple faults; node-type faults; structural dependent faults; structurally independent faults; stuck-at faults; test patterns; two-phase strategy; word-level prime candidate; Boundary scan testing; Cause effect analysis; Dictionaries; Failure analysis; Fault diagnosis; Inspection; Integrated circuit testing; Logic; Logic circuit testing; Signal design; Very-large-scale integration;
Conference_Titel :
Test Symposium, 2003. ATS 2003. 12th Asian
Print_ISBN :
0-7695-1951-2
DOI :
10.1109/ATS.2003.1250780
