New scan power reduction scheme using transition freezing for pseudo-random logic BIST

Youbean Kim; Kicheol Kim; Incheol Kim; Hyunwook Son; Sungho Kang

doi:10.1093/ietisy/e91-d.4.1185

New scan power reduction scheme using transition freezing for pseudo-random logic BIST

Youbean Kim, Kicheol Kim, Incheol Kim, Hyunwook Son, Sungho Kang

Department of Electrical and Electronic Engineering

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

This paper presents a new low power BIST TPG scheme for reducing scan transitions. It uses a transition freezing and melting method which is implemented of the transition freezing block and a MUX. When random test patterns are generated from an LFSR, transitions of those patterns satisfy pseudo-random Gaussian distribution. The proposed technique freezes transitions of patterns using a freezing value. Experimental results show that the proposed BIST TPG schemes can reduce average power reduction by about 60% without performance loss and peak power by about 30% in ISCAS'89 benchmark circuits.

Original language	English
Pages (from-to)	1185-1188
Number of pages	4
Journal	IEICE Transactions on Information and Systems
Volume	E91-D
Issue number	4
DOIs	https://doi.org/10.1093/ietisy/e91-d.4.1185
Publication status	Published - 2008 Apr

All Science Journal Classification (ASJC) codes

Software
Hardware and Architecture
Computer Vision and Pattern Recognition
Electrical and Electronic Engineering
Artificial Intelligence

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10.1093/ietisy/e91-d.4.1185

Cite this

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AU - Kang, Sungho

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AB - This paper presents a new low power BIST TPG scheme for reducing scan transitions. It uses a transition freezing and melting method which is implemented of the transition freezing block and a MUX. When random test patterns are generated from an LFSR, transitions of those patterns satisfy pseudo-random Gaussian distribution. The proposed technique freezes transitions of patterns using a freezing value. Experimental results show that the proposed BIST TPG schemes can reduce average power reduction by about 60% without performance loss and peak power by about 30% in ISCAS'89 benchmark circuits.

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New scan power reduction scheme using transition freezing for pseudo-random logic BIST

Abstract

All Science Journal Classification (ASJC) codes

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