Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
DC |
2024-02-28 10:55 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. (Tokyo) |
System design using DICE-based edge-triggered soft-error-tolerant D-FF Kazuteru Namba (Chiba Univ.) DC2023-95 |
The recent miniaturization of VLSI has made the effects of
radiation-induced soft errors more serious.
From this, many... [more] |
DC2023-95 pp.7-10 |
RECONF, VLD |
2024-01-29 17:00 |
Kanagawa |
AIRBIC Meeting Room 1-4 (Kanagawa, Online) (Primary: On-site, Secondary: Online) |
Derivation of an Evaluation Chip Spec suitable for Tester and Data Analysis
-- Toward comparative evaluation of latch-based and flip-flop-based circuits -- Tadaaki Tanimoto, Keizo Hiraga, Toshihiko Katou, Kazuhiro Bessho, Toshimasa Shimizu (Sony Semiconductor Solutions) VLD2023-90 RECONF2023-93 |
As a synchronous logic circuit, it is often argued that latch-based circuits are superior to flip-flop circuits in terms... [more] |
VLD2023-90 RECONF2023-93 pp.59-64 |
VLD, DC, RECONF, ICD, IPSJ-SLDM [detail] |
2023-11-16 10:20 |
Kumamoto |
Civic Auditorium Sears Home Yume Hall (Kumamoto, Online) (Primary: On-site, Secondary: Online) |
Proposal of MTJ-based non-volatile flip-flops using reference resistance and Two-step Store Control Kousei Kaizu, Kimiyoshi Usami (SIT) VLD2023-45 ICD2023-53 DC2023-52 RECONF2023-48 |
Non-Volatile Flip Flops (NVFF) using Magnetic Tunnel Junction (MTJ) enable non-volatile power gating and reduce leakage ... [more] |
VLD2023-45 ICD2023-53 DC2023-52 RECONF2023-48 pp.88-93 |
CPSY, DC, IPSJ-ARC [detail] |
2023-08-03 11:45 |
Hokkaido |
Hakodate Arena (Hokkaido, Online) (Primary: On-site, Secondary: Online) |
Design of soft-error tolerant non-volatile flip-flops Shogo Takahashi, Kazuteru Namba (Chiba Univ.) CPSY2023-13 DC2023-13 |
In recent years,the incidence of soft errors in VLSI has been increasing due to miniaturization,higher integration,and l... [more] |
CPSY2023-13 DC2023-13 pp.31-36 |
ICD |
2023-04-10 09:55 |
Kanagawa |
(Kanagawa, Online) (Primary: On-site, Secondary: Online) |
[Invited Lecture]
Nonvolatile Storage Cells Using FiCC for IoT Processors with Intermittent Operations Yuki Abe, Kazutoshi Kobayashi (KIT), Jun Shiomi (Osaka Univ.), Hiroyuki Ochi (Ritsumeikan Univ.) ICD2023-1 |
Energy harvesting is a key technology to supply power for Internet of Things (IoT) devices. Computing devices for IoTs m... [more] |
ICD2023-1 pp.1-6 |
VLD, HWS [detail] |
2022-03-07 14:05 |
Online |
Online (Online) |
Measurement Results of Nonvolatile Flip-Flops Using FiCC for IoT Processors with Intermittent Operations Yuki Abe, Kazutoshi Kobayashi (KIT), Hiroyuki Ochi (Ritsumeikan Univ.) VLD2021-85 HWS2021-62 |
In recent years, with the spread of the Internet of Things (IoT) and mobile devices, low power consumption of processors... [more] |
VLD2021-85 HWS2021-62 pp.45-50 |
CPSY, DC, IPSJ-SLDM, IPSJ-EMB, IPSJ-ARC [detail] |
2021-03-26 14:40 |
Online |
Online (Online) |
Non Stop Processor with Non Volatile Element Shota Nakabeppu, Nao Sugiyama, Nobuyuki Yamasaki (Keio Univ.), Kenta Suzuki, Keizo Hiraga, Yasuo Kanda (Sony Semiconductor Solutions) CPSY2020-66 DC2020-96 |
In recent years, embedded systems such as wearable devices and robots have become widespread. Wear-
able devices often ... [more] |
CPSY2020-66 DC2020-96 pp.97-102 |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-17 09:55 |
Online |
Online (Online) |
Efficient computation of inductive invariant through flipflop selection Fudong Wang, Masahiro Fujita (U-Tokyo) VLD2020-20 ICD2020-40 DC2020-40 RECONF2020-39 |
As we all know, verification plays more and more important role in VLSI design and manufacture. However, it always takes... [more] |
VLD2020-20 ICD2020-40 DC2020-40 RECONF2020-39 pp.54-59 |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-18 14:00 |
Online |
Online (Online) |
Physically Unclonable Functions(PUF) curcuit using Non-Volatile Flip-Flop and security evaluation against modeling attacks Hiroki Ishihara, Kimiyoshi Usami (Shibaura IT) VLD2020-37 ICD2020-57 DC2020-57 RECONF2020-56 |
In recent years, imitative LSIs have become a serious problem and security technology PUF to use manufacturing variabili... [more] |
VLD2020-37 ICD2020-57 DC2020-57 RECONF2020-56 pp.139-144 |
HWS, VLD [detail] |
2020-03-04 13:00 |
Okinawa |
Okinawa Ken Seinen Kaikan (Okinawa) (Cancelled but technical report was issued) |
MTJ-based Nonvolatile Flip-Flop Circuit Using Dual Power Supplies for Low-voltage Operation Sosuke Akiba, Kimiyoshi Usami (SIT) VLD2019-99 HWS2019-72 |
One of the leakage reduction techniques is nonvolatile power gating(NVPG) by using magnetic tunnel junction(MTJ). In the... [more] |
VLD2019-99 HWS2019-72 pp.31-36 |
SCE |
2020-01-17 13:15 |
Kanagawa |
(Kanagawa) |
[Poster Presentation]
Design and evaluation of single flux quantum circuits by using local magnetic flux bias technique Shunta Asada, Yuki Yamanashi, Nobuyuki Yoshikawa (Yokohama Natl. Univ.) SCE2019-42 |
We developed a local magnetic flux bias (LFB) technique to introduce a phase shift in the superconducting circuit. The L... [more] |
SCE2019-42 pp.53-56 |
DC |
2019-02-27 15:35 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. (Tokyo) |
Improvement of Flip-Flop Performance Considering the Influence of Power Supply Noise Yuya Kinoshita, Yukiya Miura (Tokyo Metropolitan Univ.) DC2018-82 |
With the scaling down and low-power operation of VLSI circuits, influence on circuit behavior by power supply noise such... [more] |
DC2018-82 pp.67-72 |
VLD, DC, CPSY, RECONF, CPM, ICD, IE, IPSJ-SLDM, IPSJ-EMB, IPSJ-ARC (Joint) [detail] |
2018-12-07 09:25 |
Hiroshima |
Satellite Campus Hiroshima (Hiroshima) |
Flip-Flops with different retention characteristics for process variation estimation Kento Fukazawa, Shinichi Nishizawa, Kazuhito Ito (Saitama Univ.) VLD2018-66 DC2018-52 |
This paper proposes to use multiple D-Flip-Flops having different retention characteristics with Ring Oscillator to moni... [more] |
VLD2018-66 DC2018-52 pp.189-193 |
VLD, HWS (Joint) |
2018-02-28 17:20 |
Okinawa |
Okinawa Seinen Kaikan (Okinawa) |
Evaluation of a Radiation-Hardened Method and Soft Error Resilience on Stacked Transistors in 28/65 nm FDSOI Processes Haruki Maruoka, Kodai Yamada, Mitsunori Ebara, Jun Furuta, Kazutoshi Kobayashi (KIT) VLD2017-103 |
The continuous downscaling of transistors has resulted in an increase of reliability issues for semiconductor chips. In ... [more] |
VLD2017-103 pp.85-90 |
VLD, HWS (Joint) |
2018-02-28 17:45 |
Okinawa |
Okinawa Seinen Kaikan (Okinawa) |
Evaluation of Soft Error Tolerance on Flip-Flop depending on 65 nm FDSOI Transistor Threshold-Voltage Mitsunori Ebara, Haruki Maruoka, Kodai Yamada, Jun Furuta, Kazutoshi Kobayashi (KIT) VLD2017-104 |
Moore's Law has been miniaturizing integrated circuits, which
can make a lot of high performance devices such as PCs an... [more] |
VLD2017-104 pp.91-96 |
VLD, HWS (Joint) |
2018-03-02 10:30 |
Okinawa |
Okinawa Seinen Kaikan (Okinawa) |
Implementation of Reconfigurable Accelerator Cool Mega-Array Using MTJ-based Nonvolatile Flip-Flop Enabling to Verify Stored Data Junya Akaike, Kimiyoshi Usami, Masaru Kudo (SIT), Hideharu Amano, Takeharu Ikezoe (Keio Univ.), Keizo Hiraga, Yusuke Shuto, Kojiro Yagami (Sony SS) VLD2017-122 |
As a method of reducing the power consumption of the flip-flop circuit, there is a nonvolatile flip-flop (NVFF) that ena... [more] |
VLD2017-122 pp.199-204 |
DC |
2018-02-20 16:35 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. (Tokyo) |
Influence on Flip-Flop Behaviors by Power Supply Noise and Proposal of their Countermeasures Miyuki Inoue, Yukiya Miura (Tokyo Metropolitan Univ.) DC2017-88 |
With the scaling down and low power operation of VLSI circuits, effects on circuit behavior by power supply noise such a... [more] |
DC2017-88 pp.67-72 |
VLD |
2017-03-01 14:25 |
Okinawa |
Okinawa Seinen Kaikan (Okinawa) |
A Nonvolatile Flip-Flop Circuit with a Split Store/Restore Architecture for Power Gating Masaru Kudo, Kimiyoshi Usami (Shibaura Institute of Tech.) VLD2016-103 |
This paper describes a nonvolatile Flip-Flop (NVFF) circuit to implement Nonvolatile Power Gating. We proposed a new NVF... [more] |
VLD2016-103 pp.7-12 |
CPSY, RECONF, VLD, IPSJ-SLDM, IPSJ-ARC [detail] |
2017-01-25 10:15 |
Kanagawa |
Hiyoshi Campus, Keio Univ. (Kanagawa) |
MTJ-based Nonvolatile Flip-Flop Circuit Enabling to Verify Stored Data Junya Akaike, Kimiyoshi Usami (SIT) VLD2016-97 CPSY2016-133 RECONF2016-78 |
With the spread of portable devices in recent year, products with high performance and low power consumption are require... [more] |
VLD2016-97 CPSY2016-133 RECONF2016-78 pp.175-180 |
VLD, DC, CPSY, RECONF, CPM, ICD, IE (Joint) [detail] |
2016-11-28 15:05 |
Osaka |
Ritsumeikan University, Osaka Ibaraki Campus (Osaka) |
Evaluation of Soft Error Rates of FlipFlops on FDSOI by Heavy Ions Masashi Hifumi, Shigehiro Umehara, Haruki Maruoka, Jun Furuta, Kazutoshi Kobayashi (KIT) VLD2016-51 DC2016-45 |
We evaluate tolerance for soft errors of FFs on a 28/65 nm FDSOI. We fabricated three different layouts of non-redundant... [more] |
VLD2016-51 DC2016-45 pp.43-48 |