Title :
N-Model Tests for VLSI Circuits
Author :
Yogi, Nitin ; Agrawal, Vishwani D.
Author_Institution :
Auburn Univ., Auburn
Abstract :
We define N-model tests that target detection of faults belonging to N specified fault models. We provide a method for deriving minimal tests using integer linear programming (ILP) without reducing the individual fault model coverage. Any test sequences, deterministic, random, functional, N-detect, etc., can be minimized for the given set of fault models. Stuck-at, transition, and pseudo stuck-at Iddq faults are used as illustrations. We generate tests using Mentor Graphics FastScan ATPG tool employing a single fault model at a time. A minimized test set for the three fault models is then obtained by solving the proposed combined ILP problem. For s5378 benchmark circuit we achieved about 50% reduction in the number of vectors and 10% reduction in the Iddq current measurements compared to the originally generated tests. We also propose a reduced complexity ILP approximation.
Keywords :
VLSI; automatic test pattern generation; circuit CAD; integer programming; integrated circuit testing; linear programming; N-model tests; VLSI circuits; individual fault model coverage; integer linear programming; mentor graphics FastScan ATPG tool; target detection; Automatic test pattern generation; Circuit faults; Circuit testing; Delay; Fault detection; Integer linear programming; Object detection; System testing; Vectors; Very large scale integration;
Conference_Titel :
System Theory, 2008. SSST 2008. 40th Southeastern Symposium on
Conference_Location :
New Orleans, LA
Print_ISBN :
978-1-4244-1806-0
Electronic_ISBN :
0094-2898
DOI :
10.1109/SSST.2008.4480230
