Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-17 09:30 |
Online |
Online |
Design of Nonvolatile SRAM Using SONOS Flash Cell and its Evaluation by Circuit Simulation Takaki Urabe, Koji Nii, Kazutoshi Kobayashi (KIT) VLD2020-11 ICD2020-31 DC2020-31 RECONF2020-30 |
In this paper, we designed a layout of a nonvolatile SRAM memory using the SONOS Flash memory, and investigated its char... [more] |
VLD2020-11 ICD2020-31 DC2020-31 RECONF2020-30 pp.1-5 |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-17 09:55 |
Online |
Online |
A Study on Power Gating Switch Control Technique for Nonvolatile Logic LSI Fangcen Zhong, Masanori Natsui, Takahiro Hanyu (Tohoku Univ.) VLD2020-12 ICD2020-32 DC2020-32 RECONF2020-31 |
[more] |
VLD2020-12 ICD2020-32 DC2020-32 RECONF2020-31 pp.6-11 |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-17 10:30 |
Online |
Online |
Power Analysis Based on Probability Calculation of Small Regions in LSI Ryo Oba, Ryu Hoshino, Kohei Miyase, Xiaoqing Wen, Seiji Kajihara (Kyutech) VLD2020-13 ICD2020-33 DC2020-33 RECONF2020-32 |
Power consumption in LSI testing is higher than in functional mode since more switching activities occur. High power con... [more] |
VLD2020-13 ICD2020-33 DC2020-33 RECONF2020-32 pp.12-17 |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-17 10:55 |
Online |
Online |
DET Flip-Flops with SEU Detection Capability Using DICE and C-Element Xu Haijia, Kazuteru Namba (Chiba Univ.) VLD2020-14 ICD2020-34 DC2020-34 RECONF2020-33 |
Abstract A dual-edge-triggered flip-flop (DET-FF) composed of DICE latch (Dual Interlocked Storage Cell) and C-element ... [more] |
VLD2020-14 ICD2020-34 DC2020-34 RECONF2020-33 pp.18-23 |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-17 11:20 |
Online |
Online |
Control Point Selection Approach for Scan Pattern Reduction under Multi-cycle Test Hikaru Tamaki, Senling Wang, Yoshinobu Higami, Hiroshi Takahashi (Ehime Univ.), Hiroyuki Iwata, Yoichi Maeda, Jun Matsushima (Renesas) VLD2020-15 ICD2020-35 DC2020-35 RECONF2020-34 |
[more] |
VLD2020-15 ICD2020-35 DC2020-35 RECONF2020-34 pp.24-29 |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-17 13:00 |
Online |
Online |
[Keynote Address]
Prospect of Large-Scale Neural-Network Simulation by Exa-scale Computing Jun Igarashi (RIKEN) |
[more] |
|
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-17 14:00 |
Online |
Online |
VLD2020-16 ICD2020-36 DC2020-36 RECONF2020-35 |
[more] |
VLD2020-16 ICD2020-36 DC2020-36 RECONF2020-35 pp.30-35 |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-17 14:25 |
Online |
Online |
Energy-Efficient ECG Signals Outlier Detection Hardware Using a Sparse Robust Deep Autoencoder Naoto Soga, Shimpei Sato, HIroki Nakahara (Tokyo Tech) VLD2020-17 ICD2020-37 DC2020-37 RECONF2020-36 |
Advancements in portable electrocardiographs have allowed electrocardiogram (ECG) signals to be recorded in everyday lif... [more] |
VLD2020-17 ICD2020-37 DC2020-37 RECONF2020-36 pp.36-41 |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-17 14:50 |
Online |
Online |
VLD2020-18 ICD2020-38 DC2020-38 RECONF2020-37 |
[more] |
VLD2020-18 ICD2020-38 DC2020-38 RECONF2020-37 pp.42-47 |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-17 09:30 |
Online |
Online |
Analysis of Resistance Distribution in Chips with Inductive Coupling Wireless Communication Interface Hideto Kayashima, Hideharu Amano, Tsunaaki Shidei (Keio Univ.) VLD2020-19 ICD2020-39 DC2020-39 RECONF2020-38 |
Building Block Computing Systems, one of the 3D stacked LSI systems, use a wireless communication interface TCI (Through... [more] |
VLD2020-19 ICD2020-39 DC2020-39 RECONF2020-38 pp.48-53 |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-17 09:55 |
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] |
2020-11-17 10:20 |
Online |
Online |
R-GCN Based Function Inference for An Arithmetic Circuit Yuichiro Fujishiro, Motoki Amagasaki, Masahiro Iida (Kumamoto Univ.), Hiroto Ito, Daisuke Ido (MITSUBISHI ELECTRIC ENGINEERING) VLD2020-21 ICD2020-41 DC2020-41 RECONF2020-40 |
R-GCN (Relational Graph Convolutional Network) is a convolutional neural network model for graphs consisting of nodes an... [more] |
VLD2020-21 ICD2020-41 DC2020-41 RECONF2020-40 pp.60-65 |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-17 10:45 |
Online |
Online |
Implementation of YOLO in the AI accelerator ReNA Toma Uemura, Yasuhiro Nakahara, Motoki Amagasaki, Masato Kiyama, Masahiro Iida (Kumamoto Univ.) VLD2020-22 ICD2020-42 DC2020-42 RECONF2020-41 |
The object detection,which is a typical AI process,has been attracting attention in various fields because it can identi... [more] |
VLD2020-22 ICD2020-42 DC2020-42 RECONF2020-41 pp.66-71 |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-17 14:00 |
Online |
Online |
Quantum Circuit Design by Steiner-Gauss with Considering the Order of Qubits Zhengtong Han, Shigeru Yamashita (Ritsumei Univ.) VLD2020-23 ICD2020-43 DC2020-43 RECONF2020-42 |
[more] |
VLD2020-23 ICD2020-43 DC2020-43 RECONF2020-42 pp.72-77 |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-17 14:25 |
Online |
Online |
Variable Ordering for Minimizing Power Consumption of BDD-based Optical Logic Circuits Ryosuke Matsuo, Shin-ichi Minato (Kyoto Univ) VLD2020-24 ICD2020-44 DC2020-44 RECONF2020-43 |
Optical logic circuits based on integrated nanophotonics have attracted significant interest due to their ultra-high-spe... [more] |
VLD2020-24 ICD2020-44 DC2020-44 RECONF2020-43 pp.78-83 |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-17 14:50 |
Online |
Online |
Restricted-Area and Fast Sample Preparation of a Fluid using Programmable Microfluidic Devices Ou Suiketsu, Yamashita Shigeru (Ritsumei Univ.), Sudip Roy (Indian Institute of Technology (IIT) Roorkee), Juinn-Dar Huang (National Chiao Tung University) VLD2020-25 ICD2020-45 DC2020-45 RECONF2020-44 |
[more] |
VLD2020-25 ICD2020-45 DC2020-45 RECONF2020-44 pp.84-89 |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-17 15:15 |
Online |
Online |
Transformation of Mixing Graphs Considering Splitting Errors on Digital Microfluidic Biochip Ikuru Yoshida, Shigeru Yamashita (Ritsumeikan Univ.) VLD2020-26 ICD2020-46 DC2020-46 RECONF2020-45 |
Recently Digital Microfluidic Biochips (DMFBs) have been studied intensively. DMFBs can execute biochemical experiments ... [more] |
VLD2020-26 ICD2020-46 DC2020-46 RECONF2020-45 pp.90-94 |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-18 09:30 |
Online |
Online |
Study on Design Guidelines for Low Power Capsule Endoscope System Using Compressed Sensing Yuuki Harada, Daisuke Kanemoto (Osaka Univ.), Makoto Ohki (Yamanashi Univ.), Osamu Maida, Tetsuya Hirose (Osaka Univ.) VLD2020-27 ICD2020-47 DC2020-47 RECONF2020-46 |
Recently, a capsule endoscopy has attracted a lot of attention as a minimally invasive method of gastrointestinal examin... [more] |
VLD2020-27 ICD2020-47 DC2020-47 RECONF2020-46 pp.95-100 |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-18 09:55 |
Online |
Online |
Column-Parallel Pipelined ADC with Ring Amplifier for High Speed and High Spatial Resolution CMOS Image Sensor Takashi Kojima (TUS), Toshinori Otaka, Yusuke Kameda, Takayuki Hamamoto (TUS) VLD2020-28 ICD2020-48 DC2020-48 RECONF2020-47 |
CMOS image sensor that can capture images with both high time resolution and high spatial resolution is required for ins... [more] |
VLD2020-28 ICD2020-48 DC2020-48 RECONF2020-47 pp.101-105 |
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-18 10:20 |
Online |
Online |
VLD2020-29 ICD2020-49 DC2020-49 RECONF2020-48 |
In this paper, we propose a method for estimating the contact angle of a droplet in the range from 0 to about 180 degree... [more] |
VLD2020-29 ICD2020-49 DC2020-49 RECONF2020-48 pp.106-109 |