Process-variation-aware Iddq Diagnois for nano-scale CMOS designs - the firt step

Along with the shrinking CMOS process and rapid design, scaling, both Iddq values and their variation of chips increase. As a result, the defect leakages become less significant when compared to the full-chip currents, making them more in-distinguishable for traditional Iddq diagnosis. Therefore, in...

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Hauptverfasser:	Chang, Chia-Ling, Wen, Charles H.-P., Bhadra, Jayanta
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	CMOS integrated circuits Integrated circuit modeling Logic gates Random access memory Semiconductor device measurement Testing
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creator	Chang, Chia-Ling Wen, Charles H.-P. Bhadra, Jayanta
description	Along with the shrinking CMOS process and rapid design, scaling, both Iddq values and their variation of chips increase. As a result, the defect leakages become less significant when compared to the full-chip currents, making them more in-distinguishable for traditional Iddq diagnosis. Therefore, in this paper, a new approach called σ-Iddq duagnosis is proposed for reinterpreting original data and diagnosing failing chips, intelligently. The overall flow consists of two key components, (1) σ-Iddq transformation and (2) defect-syndrome matching: σ-Iddq transformation first manifests defect leakages by excluding both the process-variation and design-scaling impacts. Later, defect-syndrome matching applies data mining with a pre-built library to identify types and locations of defects on the fly. Experimental result show that an average of 93.68% accuracy with a resolution of 1.75 defect suspects can be achieved on ISCAS'89 and IWLS'05 benchmark circuits using a 45nm technology, demonstrating the effectiveness of σIddq diagnosis.
doi_str_mv	10.7873/DATE.2013.101
format	Conference Proceeding
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subjects	CMOS integrated circuits Integrated circuit modeling Logic gates Random access memory Semiconductor device measurement Testing
title	Process-variation-aware Iddq Diagnois for nano-scale CMOS designs - the firt step
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