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Article type: Research Article
Authors: Bareiša, Eduardas | Jusas, Vacius | Motiejūnas, Kęstutis | Šeinauskas, Rimantas
Affiliations: Software Engineering Department, Kaunas University of Technology, Studentuogon; 50–406, LT‐51368 Kaunas, Lithuania, e‐mail: [email protected]
Abstract: The design complexity of systems on a chip drives the need to reuse legacy or intellectual property cores, whose gate‐level implementation details are unavailable. In this paper we consider the realization‐independent testing and the impact of circuit realization on the fault coverage. We investigated two fault models (input‐output pin pair fault and input‐input‐output pin triplet fault) that are used by test generation for circuits described at system description level. The test generation on the system‐level model is preferable if the efforts and the duration of the test supplement activities are less than the efforts and the duration of the test generation on gate‐level model. The test set for the black‐box model is larger as compared to the test set for the particular realization of the circuit. However, large test sets for the black‐box model can be compacted by analysis not only according to the stuck‐at faults, but also according to various defects for the particular realization.
Keywords: digital circuits, realization‐independent testing, fault models
Journal: Informatica, vol. 16, no. 1, pp. 19-36, 2005
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