Title :
Test length for random testing of sequential machines application to RAMs
Author_Institution :
Lab. Autom. de Grenoble, France
Abstract :
For a combinational fault, the probability of nondetection decreases exponentially with the test length L: ε=(1-pf)L, where pf is the probability of detecting the fault f by a random test vector. For a sequential fault, the problem is more complex because of the memory effect (the probability of detection at time l depends on the vectors previously applied) and the exact solution requires the analysis of a Markov chain modeling the detection process. This paper shows that there is a value, obtained from the transition matrix of the Markov chain, which can take the place of pf when the test length is relatively long (this value is different from the average detection probability). From this result and taking into account a particular property of bounded faults in RAMs, several results concerning these faults, already observed by several authors, are shown
Keywords :
Markov processes; fault location; integrated memory circuits; logic testing; random processes; random-access storage; sequential machines; Markov chain; RAM; bounded faults; combinational fault; memory effect; probability; random test vector; random testing; sequential fault; sequential machines; test length; transition matrix; Automata; Circuit faults; Circuit testing; Combinational circuits; Electrical fault detection; Fault detection; Sequential analysis; Sequential circuits; Software testing; System testing;
Conference_Titel :
Test Symposium, 1997. (ATS '97) Proceedings., Sixth Asian
Conference_Location :
Akita
Print_ISBN :
0-8186-8209-4
DOI :
10.1109/ATS.1997.643988
