Test configurations to enhance the testability of sequential circuits

Bangalore, India November 23-November 24

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http://doi.ieeecomputersociety.org/10.1109/ATS.1995.485332

Fourth Asian Test Symposium (ATS'95)

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	ASCII Text	x
	S. Lavabre, Y. Bertrand, M. Renovell, C. Landrault, "Test configurations to enhance the testability of sequential circuits," Asian Test Symposium, pp. 160, Fourth Asian Test Symposium (ATS'95), 1995.

	BibTex	x
	@article{ 10.1109/ATS.1995.485332, author = {S. Lavabre and Y. Bertrand and M. Renovell and C. Landrault}, title = {Test configurations to enhance the testability of sequential circuits}, journal ={Asian Test Symposium}, volume = {0}, year = {1995}, isbn = {0-8186-7129-7}, pages = {160}, doi = {http://doi.ieeecomputersociety.org/10.1109/ATS.1995.485332}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

	RefWorks Procite/RefMan/Endnote	x
	TY - CONF JO - Asian Test Symposium TI - Test configurations to enhance the testability of sequential circuits SN - 0-8186-7129-7 SP EP A1 - S. Lavabre, A1 - Y. Bertrand, A1 - M. Renovell, A1 - C. Landrault, PY - 1995 KW - design for testability; logic testing; sequential circuits; flip-flops; minimisation; controllability; observability; design for testability; sequential circuits; DFT; scan designs; test application time; shift operation; test vector; scan register; test operation; observability; fault coverage; modified flip-flops; ISCAS89 benchmarks; multiconfiguration; triconfiguration; dynamic generation VL - 0 JA - Asian Test Symposium ER -

S. Lavabre, Lab. d'Inf., Robotique et Microelectron., Univ. des Sci. et Tech. du Languedoc, Montpellier, France

Y. Bertrand, Lab. d'Inf., Robotique et Microelectron., Univ. des Sci. et Tech. du Languedoc, Montpellier, France

M. Renovell, Lab. d'Inf., Robotique et Microelectron., Univ. des Sci. et Tech. du Languedoc, Montpellier, France

C. Landrault, Lab. d'Inf., Robotique et Microelectron., Univ. des Sci. et Tech. du Languedoc, Montpellier, France

The majority of design for testability (DFT) methods for sequential circuits are based on scan designs (complete or partial). Nevertheless, with these methods the test application time remains often prohibitive due to the long shift operation to enter the test vector into the scan register. In this paper, we present a DFT method which modifies the circuit in such a way that, during the test operation, several more easily testable configurations are emulated. Different implementations are proposed for these test configurations that are shown to be useful to improve either the controllability or the observability. The efficiency of the method is evaluated in terms of fault coverage, number of modified flip-flops and test application time, using ISCAS89 benchmarks.

Index Terms:

design for testability; logic testing; sequential circuits; flip-flops; minimisation; controllability; observability; design for testability; sequential circuits; DFT; scan designs; test application time; shift operation; test vector; scan register; test operation; observability; fault coverage; modified flip-flops; ISCAS89 benchmarks; multiconfiguration; triconfiguration; dynamic generation

Citation:

S. Lavabre, Y. Bertrand, M. Renovell, C. Landrault, "Test configurations to enhance the testability of sequential circuits," ats, pp.160, Fourth Asian Test Symposium (ATS'95), 1995

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