Quantitative analysis for linear hybrid cellular automata and LFSR as built-in self-test generators for sequential faults

Abstract

This paper presents a combinatorial method of evaluating the effectiveness of linear hybrid cellular automata (LHCA) and linear feedback shift registers (LFSR) as generators for stimulating faults requiring a pair of vectors. We provide a theoretical analysis and empirical comparisons to see why the LHCA are better than the LFSRs as generators for sequential-type faults in a built-in self-test environment. Based on the concept of a partner set, the method derives the number of distinctk-cell substate vectors which have 22k , 1≤k≤[n/2], transition capability for ann-cell LHCA and ann-cell LFSR with maximum length cycles. Simulation studies of the ISCAS85 benchmark circuits provide evidence of the effectiveness of the theoretrical metric.