Switching Activity of Faulty Circuits in Presence of Multiple Transition Faults

Abstract

Excessive switching activity in the fault-free circuit can cause a fault-free circuit to fail because of increased delays. For the same reason, excessive switching activity in a faulty circuit can cause a delay fault to escape detection. This paper observes that the switching activity is higher in the presence of multiple delay faults with higher multiplicities (larger numbers of single faults that are present in the circuit together). The challenge in addressing multiple faults is related to their large number. This paper addresses this challenge by an iterative procedure that is applied to transition faults under a low-power broadside test set, and has two subprocedures: 1) the first subprocedure finds multiple transition faults with excessive faulty switching activity and 2) the second subprocedure modifies the test set so as to avoid excessive faulty switching activity for the faults found by the first subprocedure. With every additional iteration there are fewer multiple transition faults that exhibit excessive faulty switching activity. The experimental results for benchmark circuits demonstrate the levels of excessive faulty switching activity in the presence of multiple transition faults, and the possibility of reducing or even eliminating it after a small number of iterations.