Sequential Circuits Applicable for Detecting Different Types of Faults

I
IOLTW
2002
Proceedings of The Eighth IEEE International On-Line Testing Workshop (IOLTW'02)
Abstract - Sequential Circuits Applicable for Detecting Different Types of Faults

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Proceedings of The Eighth IEEE International On-Line Testing Workshop (IOLTW'02)

Isle of Bendor, France

July 08-July 10

ISBN: 0-7695-1641-6

	ASCII Text	x
	I. Levin, V. Sinelnikov, M. Karpovsky, S. Ostanin, "Sequential Circuits Applicable for Detecting Different Types of Faults," On-Line Testing Workshop, IEEE International, pp. 44, Proceedings of The Eighth IEEE International On-Line Testing Workshop (IOLTW'02), 2002.

	BibTex	x
	@article{ 10.1109/OLT.2002.1030182, author = {I. Levin and V. Sinelnikov and M. Karpovsky and S. Ostanin}, title = {Sequential Circuits Applicable for Detecting Different Types of Faults}, journal ={On-Line Testing Workshop, IEEE International}, volume = {0}, year = {2002}, isbn = {0-7695-1641-6}, pages = {44}, doi = {http://doi.ieeecomputersociety.org/10.1109/OLT.2002.1030182}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

	RefWorks Procite/RefMan/Endnote	x
	TY - CONF JO - On-Line Testing Workshop, IEEE International TI - Sequential Circuits Applicable for Detecting Different Types of Faults SN - 0-7695-1641-6 SP EP A1 - I. Levin, A1 - V. Sinelnikov, A1 - M. Karpovsky, A1 - S. Ostanin, PY - 2002 KW - null VL - 0 JA - On-Line Testing Workshop, IEEE International ER -

I. Levin, Tel-Aviv University

V. Sinelnikov, Tel-Aviv University

M. Karpovsky, Boston University

S. Ostanin, Tel-Aviv University

DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/OLT.2002.1030182

This paper presents methods for designing totally self-checking Mealy Type synchronous sequential circuits (SSCs). We use implementations of the output and the next state functions that are monotonic in state variables. The monotony enables the SSc to react to permanent faults differently than it does to transient faults. If the fault is permanent, the SSC will produce a non-code output, which will be detected as error by the checker after a number of clock cycles. In the case of a transient fault, the SSC is able to survive and to return to normal operation after a number of clock cycles.

A novel universal architecture of self-checking SSCs enabling to overcome the above contradiction is proposed. This architecture can be adopted both for reduction of the fault latency of a permanent fault and for increasing the SSC survivability with respect to a transient fault. A method for SSC synthesis for the proposed architecture is presented. This method is oriented to FPGA implementation.

Citation:

I. Levin, V. Sinelnikov, M. Karpovsky, S. Ostanin, "Sequential Circuits Applicable for Detecting Different Types of Faults," ioltw, pp.44, Proceedings of The Eighth IEEE International On-Line Testing Workshop (IOLTW'02), 2002

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