BILBO-friendly hybrid BIST architecture with asymmetric polynomial reseeding

By advances in technology, integrated circuits have come to include more functionality and more complexity in a single chip. Although methods of testing have improved, but the increase in complexity of circuits, keeps testing a challenging problem. Two important challenges in testing of digital circ...

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Hauptverfasser:	Sadredini, Elahe, Najafi, M., Fathy, M., Navabi, Z.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	BILBO BIST Built-in self-test Circuit faults Computer architecture DFT Equations hybrid reconfigurable Registers SoC testing Vectors
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creator	Sadredini, Elahe Najafi, M. Fathy, M. Navabi, Z.
description	By advances in technology, integrated circuits have come to include more functionality and more complexity in a single chip. Although methods of testing have improved, but the increase in complexity of circuits, keeps testing a challenging problem. Two important challenges in testing of digital circuits are test time and accessing the circuit under test (CUT) for testing. These challenges become even more important in complex system on chip (SoC) zone. This paper presents a multistage test strategy to be implemented on a BIST architecture for reducing test time of a simple core as solution for more global application of SoC testing strategy. This strategy implements its test pattern generation and output response analyzer in a BILBO architecture. The proposed method benefits from an irregular polynomial BILBO (IP-BILBO) structure to improve its test results. Experimental results on ISCAS-89 benchmark circuits show an average of 35% improvement in test time in proportion to pervious work.
doi_str_mv	10.1109/CADS.2012.6316435
format	Conference Proceeding
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	BILBO BIST Built-in self-test Circuit faults Computer architecture DFT Equations hybrid reconfigurable Registers SoC testing Vectors
title	BILBO-friendly hybrid BIST architecture with asymmetric polynomial reseeding
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