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All Technical Committee Conferences (Searched in: All Years)
| Committee | Date Time | Place | Paper Title / Authors | Abstract | Paper # | |
| ICD | 2024-04-11 10:45 |
Kanagawa | (Primary: On-site, Secondary: Online) |
[Invited Lecture]
An SPN Strong PUF with SRAM-based Entropy Source Featuring Both 100-Bit Output Space and Modeling Attack Resilience Kunyang Liu (Kyoto Univ.), Yichen Tang (Lenovo), Shufan Xu, Kiichi Niitsu (Kyoto Univ.), Hirofumi Shinohara (Waseda Univ.)  ICD2024-2 |
Strong physically unclonable function (Strong PUF) is a hardware-security circuit that generates response outputs corres... [more] | ICD2024-2 p.7 |
| ICD | 2023-04-10 16:05 |
Kanagawa | (Primary: On-site, Secondary: Online) |
[Invited Lecture]
Strong PUF Using SRAM Weak PUF-Based Secret Substitution Layer for Edge-Device Security Applications Kunyang Liu, Hirofumi Shinohara (Waseda Univ.) ICD2023-7 |
Strong physically unclonable function (PUF) provides a promising solution for lightweight security applications aimed at... [more] | ICD2023-7 p.15 |
| HWS, ICD [detail] | 2021-10-19 11:40 |
Online | Online | Robustness Improvement by XORing Multiple Entropy Sources for True Random Number Generator
-- Stochastic Calculations of Mismatch-to-Noise Ratio -- Ruilin Zhang, Hirofumi Shinohara (Waseda Univ.) HWS2021-45 ICD2021-19 |
[more] | HWS2021-45 ICD2021-19 pp.23-25 |
| SDM, ICD, ITE-IST [detail] | 2021-08-18 14:50 |
Online | Online | [Invited Talk]
Latch Based Static and Dynamic Random Number Generators for Information Security Hirofumi Shinohara, Kunyang Liu, Ruilin Zhang, Xingyu Wang (Waseda Univ.) SDM2021-42 ICD2021-13 |
This paper describes latch-based TRNG and PUF with highly stable operations [more] | SDM2021-42 ICD2021-13 pp.64-67 |
| HWS, ISEC, SITE, ICSS, EMM, IPSJ-CSEC, IPSJ-SPT [detail] | 2018-07-26 14:10 |
Hokkaido | Sapporo Convention Center | Compensation of Temperature Induced Flipping-Bits in CMOS SRAM PUF by NMOS Body-Bias Xuanhao Zhang, Xiang Chen, Hanfeng Sun, Hirofumi Shinohara (Waseda Univ.) ISEC2018-41 SITE2018-33 HWS2018-38 ICSS2018-44 EMM2018-40 |
PUF suffers from flipping-bits caused by temperature changes which degrade the stability of output. This paper proposes ... [more] | ISEC2018-41 SITE2018-33 HWS2018-38 ICSS2018-44 EMM2018-40 pp.333-336 |
| ICD | 2018-04-20 13:00 |
Tokyo | [Invited Talk]
Random Circuits for Information Security Hirofumi Shinohara (Waseda Univ.) ICD2018-11 |
[more] | ICD2018-11 p.45 |
|
| SDM, ICD, ITE-IST [detail] | 2017-08-01 09:45 |
Hokkaido | Hokkaido-Univ. Multimedia Education Bldg. | Parallel Programming of Non-volatile Power-up States of SRAM Tomoko Mizutani, Kiyoshi Takeuchi, Takuya Saraya (Univ. of Tokyo), Hirofumi Shinohara (Waseda Univ.), Masaharu Kobayashi, Toshiro Hiramoto (Univ. of Tokyo) SDM2017-38 ICD2017-26 |
A technique for using an ordinary SRAM array for programmable and readable non-volatile (NV) memory is proposed. Paralle... [more] | SDM2017-38 ICD2017-26 pp.49-54 |
| ICD, SDM | 2014-08-04 09:00 |
Hokkaido | Hokkaido Univ., Multimedia Education Bldg. | [Invited Talk]
A Perpetuum Mobile 32bit CPU with 13.4pJ/cycle, 0.14μA Sleep Current using Reverse-Body-Bias Assisted 65nm SOTB CMOS Technology Koichiro Ishibashi (UEC), Nobuyuki Sugii (LEAP), Kimiyoshi Usami (SIT), Hideharu Amano (KU), Kazutoshi Kobayashi (KIT), Cong-Kha Pham (UEC), Hideki Makiyama, Yoshiki Yamamoto, Hirofumi Shinohara, Toshiaki Iwamatsu, Yasuo Yamaguchi, Hidekazu Oda, Takumi Hasegawa, Shinobu Okanishi, Hiroshi Yanagita (LEAP) SDM2014-62 ICD2014-31 |
[more] | SDM2014-62 ICD2014-31 pp.1-4 |
| SDM | 2014-01-29 14:40 |
Tokyo | Kikai-Shinko-Kaikan Bldg. | [Invited Talk]
Suppression of Die-to-Die Delay Variability of Silicon on Thin Buried Oxide (SOTB) CMOS Circuits by Balanced P/N Drivability Control with Back-Bias for Ultralow-Voltage (0.4 V) Operation Hideki Makiyama, Yoshiki Yamamoto, Hirofumi Shinohara, Toshiaki Iwamatsu, Hidekazu Oda, Nobuyuki Sugii (LEAP), Koichiro Ishibashi (Univ. of Electro- Comm.), Tomoko Mizutani, Toshiro Hiramoto (Univ. of Tokyo), Yasuo Yamaguchi (LEAP) SDM2013-143 |
Small-variability transistors such as silicon on thin buried oxide (SOTB) are effective for reducing the operation volta... [more] | SDM2013-143 pp.35-38 |
| SDM, ICD | 2013-08-02 09:25 |
Ishikawa | Kanazawa University | Reduced Cell Current Variability in Fully Depleted Silicon-on-Thin-BOX (SOTB) SRAM Cells at Supply Voltage of 0.4V Tomoko Mizutani (Univ. of Tokyo), Yoshiki Yamamoto, Hideki Makiyama, Hirofumi Shinohara, Toshiaki Iwamatsu, Hidekazu Oda, Nobuyuki Sugii (LEAP), Toshiro Hiramoto (Univ. of Tokyo) SDM2013-75 ICD2013-57 |
Cell current (ICELL) variability in 6T-SRAM composed of silicon-on-thin-BOX (SOTB) MOSFETs by 65nm technology is measure... [more] | SDM2013-75 ICD2013-57 pp.47-52 |
| ICD | 2013-04-12 14:45 |
Ibaraki | Advanced Industrial Science and Technology (AIST) | [Invited Lecture]
A 13.8pJ/Access/Mbit SRAM with Charge Collector Circuits for Effective Use of Non-Selected Bit Line Charges Shinichi Moriwaki, Yasue Yamamoto, Toshikazu Suzuki (STARC), Atsushi Kawasumi (Toshiba), Shinji Miyano, Hirofumi Shinohara (STARC), Takayasu Sakurai (Univ. Tokyo) ICD2013-20 |
1Mb SRAM with charge collector circuits for effective use of non-selected bit line charges has been fabricated in 40nm t... [more] | ICD2013-20 pp.103-108 |
| ICD, SDM | 2012-08-02 11:25 |
Hokkaido | Sapporo Center for Gender Equality, Sapporo, Hokkaido | [Invited Talk]
Low Energy Dissipation Circuits with 0.5V Operation Voltage and Applications Hirofumi Shinohara (STARC) SDM2012-67 ICD2012-35 |
Extremely low voltage operation down to nearly or less than 0.5V has been gathering attention as a fundamental way to re... [more] | SDM2012-67 ICD2012-35 pp.23-28 |
| ICD, SDM | 2012-08-02 13:00 |
Hokkaido | Sapporo Center for Gender Equality, Sapporo, Hokkaido | [Invited Lecture]
Silicon on Thin Buried Oxide (SOTB) Technology for Ultralow-Power (ULP) Applications Nobuyuki Sugii, Toshiaki Iwamatsu, Yoshiki Yamamoto, Hideki Makiyama, Takaaki Tsunomura, Hirofumi Shinohara, Hideki Aono, Hidekazu Oda, Shiro Kamohara, Yasuo Yamaguchi (LEAP/Renesas), Tomoko Mizutani, Toshiro Hiramoto (IIS, The University of Tokyo) SDM2012-68 ICD2012-36 |
Needs for low-power CMOS devices are still increasing. Ultralow-voltage-operation (ULV) CMOS with maximum power efficien... [more] | SDM2012-68 ICD2012-36 pp.29-32 |
| SDM, ED (Workshop) |
2012-06-29 09:45 |
Okinawa | Okinawa Seinen-kaikan | [Invited Talk]
Silicon on Thin Buried Oxide (SOTB) Technology for Ultralow-Power (ULP) Applications Nobuyuki Sugii, Toshiaki Iwamatsu, Yoshiki Yamamoto, Hideki Makiyama, Takaaki Tsunomura, Hirofumi Shinohara, Hideki Aono, Hidekazu Oda, Shiro Kamohara, Yasuo Yamaguchi (LEAP/Renesas), Tomoko Mizutani, Toshiro Hiramoto (IIS, Univ. of Tokyo) |
Needs for low-power CMOS devices are still increasing. Ultralow-voltage-operation CMOS with maximum power efficiency can... [more] | |
| ICD | 2012-04-24 13:50 |
Iwate | Seion-so, Tsunagi Hot Spring (Iwate) | 0.4V SRAM with Bit Line Swing Suppression Charge Share Hierarchical Bit Line Scheme Shinichi Moriwaki, Atsushi Kawasumi (STARC), Toshikazu Suzuki (Panasonic), Yasue Yamamoto, Shinji Miyano, Hirofumi Shinohara (STARC), Takayasu Sakurai (Univ. of Tokyo) ICD2012-13 |
[more] | ICD2012-13 pp.67-71 |
| SDM, ICD | 2011-08-26 12:55 |
Toyama | Toyama kenminkaikan | [Invited Talk]
0.5V Extremely Low Power Circuits for Wireless Sensor Nodes with Energy Harvesting Makoto Takamiya, Koichi Ishida, Hiroshi Fuketa (Univ. of Tokyo), Masahiro Nomura, Hirofumi Shinohara (STARC), Takayasu Sakurai (Univ. of Tokyo) SDM2011-88 ICD2011-56 |
0.5V extremely low power circuits for wireless sensor nodes with energy harvesting are shown. Minimum operating voltage ... [more] | SDM2011-88 ICD2011-56 pp.87-92 |
| SDM, ICD | 2011-08-26 16:30 |
Toyama | Toyama kenminkaikan | Energy Efficiency Increase of Integer Unit Enabled by Contention-less Flip-Flops (CLFF) and Separated Supply Voltage between Flip-Flops and Combinational Logics Hiroshi Fuketa (Univ. of Tokyo), Koji Hirairi (STARC), Tadashi Yasufuku, Makoto Takamiya (Univ. of Tokyo), Masahiro Nomura, Hirofumi Shinohara (STARC), Takayasu Sakurai (Univ. of Tokyo) SDM2011-95 ICD2011-63 |
[more] | SDM2011-95 ICD2011-63 pp.127-132 |
| ICD | 2011-04-19 11:20 |
Hyogo | Kobe University Takigawa Memorial Hall | 0.5-V, 5.5-nsec Access Time, Bulk-CMOS 8T SRAM with Suspended Bit-Line Read Scheme Toshikazu Suzuki, Shinichi Moriwaki, Atsushi Kawasumi, Shinji Miyano, Hirofumi Shinohara (STARC) ICD2011-12 |
A low-voltage high-speed bulk-CMOS 8T SRAM is proposed. A novel 8-transistor (8T) memory cell with a complementary read ... [more] | ICD2011-12 pp.65-70 |
| ICD | 2010-04-22 10:50 |
Kanagawa | Shonan Institute of Tech. | A 45nm 0.6V Cross-Point 8T SRAM with Negative Biased Read/Write Assist Makoto Yabuuchi, Koji Nii, Yasumasa Tsukamoto, Yasunobu Nakase, Hirofumi Shinohara (Renesas Electronics) ICD2010-3 |
We propose a new design solution for embedded SRAM macros with cross point 8T-SRAM for low operating voltage and power. ... [more] | ICD2010-3 pp.13-16 |
| ICD | 2008-12-12 16:35 |
Tokyo | Tokyo Inst. Tech., Ohokayama Campus, Kokusa-Kouryu-Kaikan | Post-Silicon Programmed Body-Biasing Platform Suppressing Device Variability in 45 nm CMOS Technology Issei Kashima, Hiroaki Suzuki, Masanori Kurimoto (Renesas Technology Corp), Tadao Yamanaka (Renesas Design), Hidehiro Takata (Renesas Technology Corp), Hiroshi Makino (Osaka Institute of Tech), Hirofumi Shinohara (Renesas Technology Corp) ICD2008-128 |
The Post-Silicon Programmed Body-Biasing Platform is proposed to suppress device variability in the 45-nm CMOS technolog... [more] | ICD2008-128 pp.137-142 |
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