An effective power reduction methodology for deterministic BIST using auxiliary LFSR

Myung Hoon Yang; Yongjoon Kim; Sunghoon Chun; Sungho Kang

doi:10.1007/s10836-008-5077-z

An effective power reduction methodology for deterministic BIST using auxiliary LFSR

Myung Hoon Yang, Yongjoon Kim, Sunghoon Chun, Sungho Kang

Department of Electrical and Electronic Engineering

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

3 Citations (Scopus)

Abstract

Power consumption for test vectors is a major problem in SOC testing using BIST. A new low power testing methodology to reduce the peak power and average power associated with scan-based designs in the deterministic BIST is proposed. This new method utilizes an auxiliary LFSR to reduce the amount of the switching activity in the deterministic BIST. Excessive transition detector (ETD) monitors the number of transitions in the test pattern generated by LFSR and the low transition pattern is generated for excessive transition region using an auxiliary LFSR. Experimental results for the larger ISCAS 89 benchmarks show that reduced peak power and average power can indeed be achieved with little hardware overhead compared to previous schemes.

Original language	English
Pages (from-to)	591-595
Number of pages	5
Journal	Journal of Electronic Testing: Theory and Applications (JETTA)
Volume	24
Issue number	6
DOIs	https://doi.org/10.1007/s10836-008-5077-z
Publication status	Published - 2008 Dec

All Science Journal Classification (ASJC) codes

Electrical and Electronic Engineering

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10.1007/s10836-008-5077-z

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abstract = "Power consumption for test vectors is a major problem in SOC testing using BIST. A new low power testing methodology to reduce the peak power and average power associated with scan-based designs in the deterministic BIST is proposed. This new method utilizes an auxiliary LFSR to reduce the amount of the switching activity in the deterministic BIST. Excessive transition detector (ETD) monitors the number of transitions in the test pattern generated by LFSR and the low transition pattern is generated for excessive transition region using an auxiliary LFSR. Experimental results for the larger ISCAS 89 benchmarks show that reduced peak power and average power can indeed be achieved with little hardware overhead compared to previous schemes.",

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N2 - Power consumption for test vectors is a major problem in SOC testing using BIST. A new low power testing methodology to reduce the peak power and average power associated with scan-based designs in the deterministic BIST is proposed. This new method utilizes an auxiliary LFSR to reduce the amount of the switching activity in the deterministic BIST. Excessive transition detector (ETD) monitors the number of transitions in the test pattern generated by LFSR and the low transition pattern is generated for excessive transition region using an auxiliary LFSR. Experimental results for the larger ISCAS 89 benchmarks show that reduced peak power and average power can indeed be achieved with little hardware overhead compared to previous schemes.

AB - Power consumption for test vectors is a major problem in SOC testing using BIST. A new low power testing methodology to reduce the peak power and average power associated with scan-based designs in the deterministic BIST is proposed. This new method utilizes an auxiliary LFSR to reduce the amount of the switching activity in the deterministic BIST. Excessive transition detector (ETD) monitors the number of transitions in the test pattern generated by LFSR and the low transition pattern is generated for excessive transition region using an auxiliary LFSR. Experimental results for the larger ISCAS 89 benchmarks show that reduced peak power and average power can indeed be achieved with little hardware overhead compared to previous schemes.

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An effective power reduction methodology for deterministic BIST using auxiliary LFSR

Abstract

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