Abstract
In the absence of information about the layout, test generation and fault simulation systems must target all bridging faults. A novel algorithm, that is both time and space efficient, for simulating I/sub DDQ/ tests for all two-line bridging faults in combinational circuits is presented. Simulation results using randomly generated test sets point to the computational feasibility of targeting all two-line bridging faults. On a more theoretical note, we show that the problem of computing I/sub DDQ/ tests for all two-line bridging faults, even in some restricted classes of circuits, is intractable, and, even under some pessimistic assumptions, a complete I/sub DDQ/ test set for all two-line bridging faults also covers all multiple line, single cluster bridging faults.
Published Version
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