Power-gated 32 bit microprocessor with a power controller circuit activated by deep-sleep-mode instruction achieving ultra-low power operation

Hiroki Koike; Takashi Ohsawa; Sadahiko Miura; Hiroaki Honjo; Shoji Ikeda; Takahiro Hanyu; Hideo Ohno; Tetsuo Endoh

doi:10.7567/JJAP.54.04DE08

Power-gated 32 bit microprocessor with a power controller circuit activated by deep-sleep-mode instruction achieving ultra-low power operation

Hiroki Koike^*, Takashi Ohsawa, Sadahiko Miura, Hiroaki Honjo, Shoji Ikeda, Takahiro Hanyu, Hideo Ohno, Tetsuo Endoh

^*Corresponding author for this work

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

8 Citations (Scopus)

Abstract

A spintronic-based power-gated micro-processing unit (MPU) is proposed. It includes a power control circuit activated by the newly supported power-off instruction for the deep-sleep mode. These means enable the power-off procedure for the MPU to be executed appropriately. A test chip was designed and fabricated using 90nm CMOS and an additional 100nm MTJ process; it was successfully operated. The guideline of the energy reduction effects for this MPU was presented, using the estimation based on the measurement results of the test chip. The result shows that a large operation energy reduction of 1/28 can be achieved when the operation duty is 10%, under the condition of a sufficient number of idle clock cycles.

Original language	English
Article number	04DE08
Journal	Japanese journal of applied physics
Volume	54
Issue number	4
DOIs	https://doi.org/10.7567/JJAP.54.04DE08
Publication status	Published - 2015 Apr 1
Externally published	Yes

ASJC Scopus subject areas

Engineering(all)
Physics and Astronomy(all)

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10.7567/JJAP.54.04DE08

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title = "Power-gated 32 bit microprocessor with a power controller circuit activated by deep-sleep-mode instruction achieving ultra-low power operation",

abstract = "A spintronic-based power-gated micro-processing unit (MPU) is proposed. It includes a power control circuit activated by the newly supported power-off instruction for the deep-sleep mode. These means enable the power-off procedure for the MPU to be executed appropriately. A test chip was designed and fabricated using 90nm CMOS and an additional 100nm MTJ process; it was successfully operated. The guideline of the energy reduction effects for this MPU was presented, using the estimation based on the measurement results of the test chip. The result shows that a large operation energy reduction of 1/28 can be achieved when the operation duty is 10%, under the condition of a sufficient number of idle clock cycles.",

author = "Hiroki Koike and Takashi Ohsawa and Sadahiko Miura and Hiroaki Honjo and Shoji Ikeda and Takahiro Hanyu and Hideo Ohno and Tetsuo Endoh",

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AU - Koike, Hiroki

AU - Ohsawa, Takashi

AU - Miura, Sadahiko

AU - Honjo, Hiroaki

AU - Ikeda, Shoji

AU - Hanyu, Takahiro

AU - Ohno, Hideo

AU - Endoh, Tetsuo

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Power-gated 32 bit microprocessor with a power controller circuit activated by deep-sleep-mode instruction achieving ultra-low power operation

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