Test pattern generation for path delay faults in synchronous sequential circuits using multiple fast clocks and multiple observation times

The problem of test generation for path delay faults in synchronous sequential circuits is addressed. In existing testing methods, a single fast clock cycle is used to activate path delay faults and a fault is said to be detected only if the fault free response is different from the faulty response...

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Hauptverfasser:	Uppaluri, P., Pomeranz, I., Reddy, S.M.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Circuit faults Circuit testing Clocks Delay effects Electrical fault detection Fault detection Sequential analysis Sequential circuits Synchronous generators Test pattern generators
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creator	Uppaluri, P. Pomeranz, I. Reddy, S.M.
description	The problem of test generation for path delay faults in synchronous sequential circuits is addressed. In existing testing methods, a single fast clock cycle is used to activate path delay faults and a fault is said to be detected only if the fault free response is different from the faulty response at a single output and at a specified time unit in the test sequence. We refer to these methods as single fast clock cycle and single observation time testing methods. We show that testable faults may exist, which are untestable using a single fast clock cycle and a single observation time. Such faults are testable when multiple fast clock cycles and/or multiple observation times are used. A test generation procedure is given that uses multiple fast clock cycles and multiple observation times. Experimental results are presented on MCNC synthesis benchmarks to demonstrate the effectiveness of the proposed strategy in increasing the fault coverage and reducing the test length.< >
doi_str_mv	10.1109/FTCS.1994.315617
format	Conference Proceeding
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In existing testing methods, a single fast clock cycle is used to activate path delay faults and a fault is said to be detected only if the fault free response is different from the faulty response at a single output and at a specified time unit in the test sequence. We refer to these methods as single fast clock cycle and single observation time testing methods. We show that testable faults may exist, which are untestable using a single fast clock cycle and a single observation time. Such faults are testable when multiple fast clock cycles and/or multiple observation times are used. A test generation procedure is given that uses multiple fast clock cycles and multiple observation times. Experimental results are presented on MCNC synthesis benchmarks to demonstrate the effectiveness of the proposed strategy in increasing the fault coverage and reducing the test length.< ></description><identifier>ISBN: 9780818655203</identifier><identifier>ISBN: 0818655208</identifier><identifier>DOI: 10.1109/FTCS.1994.315617</identifier><language>eng</language><publisher>IEEE Comput. Soc. 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In existing testing methods, a single fast clock cycle is used to activate path delay faults and a fault is said to be detected only if the fault free response is different from the faulty response at a single output and at a specified time unit in the test sequence. We refer to these methods as single fast clock cycle and single observation time testing methods. We show that testable faults may exist, which are untestable using a single fast clock cycle and a single observation time. Such faults are testable when multiple fast clock cycles and/or multiple observation times are used. A test generation procedure is given that uses multiple fast clock cycles and multiple observation times. Experimental results are presented on MCNC synthesis benchmarks to demonstrate the effectiveness of the proposed strategy in increasing the fault coverage and reducing the test length.< ></description><subject>Circuit faults</subject><subject>Circuit testing</subject><subject>Clocks</subject><subject>Delay effects</subject><subject>Electrical fault detection</subject><subject>Fault detection</subject><subject>Sequential analysis</subject><subject>Sequential circuits</subject><subject>Synchronous generators</subject><subject>Test pattern generators</subject><isbn>9780818655203</isbn><isbn>0818655208</isbn><fulltext>true</fulltext><rsrctype>conference_proceeding</rsrctype><creationdate>1994</creationdate><recordtype>conference_proceeding</recordtype><sourceid>6IE</sourceid><sourceid>RIE</sourceid><recordid>eNp9j8FOwzAQRC0hJBDkXnHaH2iwSd0m54qKO7lXxt20C46dem2k_AJfjVGRuLGXlXbezmiEWChZKyW7x12_fa1V163qRum12lyJqtu0slXtWusn2dyIivldltG6Lcit-OqRE0wmJYwejugxmkTBwxDiz_kEB3RmhsFklxjIA8_enmLwITMwnjP6RMaBpWgzFSQz-SOMBafJYXks_tYF-8Fg_OFPCG-M8fMSlmhEvhfXg3GM1e--Ew-75377siRE3E-RRhPn_aVY86_4DfBEVjE</recordid><startdate>1994</startdate><enddate>1994</enddate><creator>Uppaluri, P.</creator><creator>Pomeranz, I.</creator><creator>Reddy, S.M.</creator><general>IEEE Comput. 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identifier	ISBN: 9780818655203
ispartof	Proceedings of IEEE 24th International Symposium on Fault- Tolerant Computing, 1994, p.456-465
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language	eng
recordid	cdi_ieee_primary_315617
source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Circuit faults Circuit testing Clocks Delay effects Electrical fault detection Fault detection Sequential analysis Sequential circuits Synchronous generators Test pattern generators
title	Test pattern generation for path delay faults in synchronous sequential circuits using multiple fast clocks and multiple observation times
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