39% access time improvement, 11% energy reduction, 32 kbit 1-read/1-write 2-port static random-access memory using two-stage read boost and write-boost after read sensing scheme

Yasue Yamamoto; Shinichi Moriwaki; Atsushi Kawasumi; Shinji Miyano; Hirofumi Shinohara

doi:10.7567/JJAP.55.04EF13

39% access time improvement, 11% energy reduction, 32 kbit 1-read/1-write 2-port static random-access memory using two-stage read boost and write-boost after read sensing scheme

Yasue Yamamoto, Shinichi Moriwaki, Atsushi Kawasumi, Shinji Miyano, Hirofumi Shinohara

Graduate School of Information, Production and Systems

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

Abstract

We propose novel circuit techniques for 1 clock (1CLK) 1 read/1 write (1R/1W) 2-port static random-access memories (SRAMs) to improve read access time (tAC) and write margins at low voltages. Two-stage read boost (TSR-BST) and write word line boost (WWL-BST) after the read sensing schemes have been proposed. TSR-BST reduces the worst read bit line (RBL) delay by 61% and RBL amplitude by 10% at VDD = 0.5 V, which improves tAC by 39% and reduces energy dissipation by 11% at VDD = 0.55V. WWL-BST after read sensing scheme improves minimum operating voltage (Vmin) by 140mV. A 32 kbit 1CLK 1R/1W 2-port SRAM with TSR-BSTand WWL-BST has been developed using a 40 nm CMOS.

Original language	English
Article number	04EF13
Journal	Japanese journal of applied physics
Volume	55
Issue number	4
DOIs	https://doi.org/10.7567/JJAP.55.04EF13
Publication status	Published - 2016 Apr

ASJC Scopus subject areas

Engineering(all)
Physics and Astronomy(all)

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10.7567/JJAP.55.04EF13

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39% access time improvement, 11% energy reduction, 32 kbit 1-read/1-write 2-port static random-access memory using two-stage read boost and write-boost after read sensing scheme. / Yamamoto, Yasue; Moriwaki, Shinichi; Kawasumi, Atsushi et al.
In: Japanese journal of applied physics, Vol. 55, No. 4, 04EF13, 04.2016.

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

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title = "39% access time improvement, 11% energy reduction, 32 kbit 1-read/1-write 2-port static random-access memory using two-stage read boost and write-boost after read sensing scheme",

abstract = "We propose novel circuit techniques for 1 clock (1CLK) 1 read/1 write (1R/1W) 2-port static random-access memories (SRAMs) to improve read access time (tAC) and write margins at low voltages. Two-stage read boost (TSR-BST) and write word line boost (WWL-BST) after the read sensing schemes have been proposed. TSR-BST reduces the worst read bit line (RBL) delay by 61% and RBL amplitude by 10% at VDD = 0.5 V, which improves tAC by 39% and reduces energy dissipation by 11% at VDD = 0.55V. WWL-BST after read sensing scheme improves minimum operating voltage (Vmin) by 140mV. A 32 kbit 1CLK 1R/1W 2-port SRAM with TSR-BSTand WWL-BST has been developed using a 40 nm CMOS.",

author = "Yasue Yamamoto and Shinichi Moriwaki and Atsushi Kawasumi and Shinji Miyano and Hirofumi Shinohara",

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AU - Miyano, Shinji

AU - Shinohara, Hirofumi

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N2 - We propose novel circuit techniques for 1 clock (1CLK) 1 read/1 write (1R/1W) 2-port static random-access memories (SRAMs) to improve read access time (tAC) and write margins at low voltages. Two-stage read boost (TSR-BST) and write word line boost (WWL-BST) after the read sensing schemes have been proposed. TSR-BST reduces the worst read bit line (RBL) delay by 61% and RBL amplitude by 10% at VDD = 0.5 V, which improves tAC by 39% and reduces energy dissipation by 11% at VDD = 0.55V. WWL-BST after read sensing scheme improves minimum operating voltage (Vmin) by 140mV. A 32 kbit 1CLK 1R/1W 2-port SRAM with TSR-BSTand WWL-BST has been developed using a 40 nm CMOS.

AB - We propose novel circuit techniques for 1 clock (1CLK) 1 read/1 write (1R/1W) 2-port static random-access memories (SRAMs) to improve read access time (tAC) and write margins at low voltages. Two-stage read boost (TSR-BST) and write word line boost (WWL-BST) after the read sensing schemes have been proposed. TSR-BST reduces the worst read bit line (RBL) delay by 61% and RBL amplitude by 10% at VDD = 0.5 V, which improves tAC by 39% and reduces energy dissipation by 11% at VDD = 0.55V. WWL-BST after read sensing scheme improves minimum operating voltage (Vmin) by 140mV. A 32 kbit 1CLK 1R/1W 2-port SRAM with TSR-BSTand WWL-BST has been developed using a 40 nm CMOS.

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39% access time improvement, 11% energy reduction, 32 kbit 1-read/1-write 2-port static random-access memory using two-stage read boost and write-boost after read sensing scheme

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