A distance reduction approach to design for testability

Princeton, New Jersey April 30-May 03

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http://doi.ieeecomputersociety.org/10.1109/VTEST.1995.512631

13th IEEE VLSI Test Symposium (VTS'95)

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	F.F. Hsu, J.H. Patel, "A distance reduction approach to design for testability," VLSI Test Symposium, IEEE, pp. 0158, 13th IEEE VLSI Test Symposium (VTS'95), 1995.

	BibTex	x
	@article{ 10.1109/VTEST.1995.512631, author = {F.F. Hsu and J.H. Patel}, title = {A distance reduction approach to design for testability}, journal ={VLSI Test Symposium, IEEE}, volume = {0}, year = {1995}, isbn = {0-8186-7000-2}, pages = {0158}, doi = {http://doi.ieeecomputersociety.org/10.1109/VTEST.1995.512631}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

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	TY - CONF JO - VLSI Test Symposium, IEEE TI - A distance reduction approach to design for testability SN - 0-8186-7000-2 SP EP A1 - F.F. Hsu, A1 - J.H. Patel, PY - 1995 KW - design for testability; finite state machines; logic testing; sequential circuits; flip-flops; distance reduction approach; design for testability; average distance; finite state machines; center state; test function embedding technique; sequential circuits; synthesis for testability; test function; SFT techniques; DFT techniques; flip-flops VL - 0 JA - VLSI Test Symposium, IEEE ER -

F.F. Hsu, Center for Reliable & High Performance Comput., Illinois Univ., Urbana, IL, USA

J.H. Patel, Center for Reliable & High Performance Comput., Illinois Univ., Urbana, IL, USA

Abstract: The average distance between states is proposed as a new testability measure for finite state machines (FSMs). Also proposed is the concept of center state to reduce distances in FSMs. This test function embedding technique has been shown to improve the testability of sequential circuits with minimal overhead. An overview of several design for testability (DFT) and synthesis for testability (SFT) methods for sequential circuits is also given in this paper. Experimental results have shown that DFT approach is more advantageous than SFT approach to implement our test function. The contribution of this paper is to analyze the trade-offs between several aspects of DFT and SFT techniques.

Index Terms:

design for testability; finite state machines; logic testing; sequential circuits; flip-flops; distance reduction approach; design for testability; average distance; finite state machines; center state; test function embedding technique; sequential circuits; synthesis for testability; test function; SFT techniques; DFT techniques; flip-flops

Citation:

F.F. Hsu, J.H. Patel, "A distance reduction approach to design for testability," vts, pp.0158, 13th IEEE VLSI Test Symposium (VTS'95), 1995

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