Month: February 2024

Conference / Workshop

Papers accepted for DAC2024

by users

The following papers have been accepted to Design Automation Conference (DAC), to be held in San Francisco, CA, in July 2024.

  • Takefumi Koike, Hiromitsu Awano, and Takashi Sato, “Triplet network-based DNA encoding for enhanced similarity image retrieval,” in Proc. ACM/IEEE Design Automation Conference (DAC), July 2024, to appear. (regular paper acceptance ratio: 23%)
  • Quan Cheng, Qiufeng Li, Longyang Lin, Wang Liao, Liuyao Dai, Hao Yu and Masanori Hashimoto, “How accurately can soft error impact be estimated in black-box/white-box cases? — a case study with an edge AI SoC –, July 2024, to appear. (regular paper acceptance ratio: 23%)
Conference / Workshop

ASPDAC2024

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The following members delivered presentations of their research results at the Asia and South Pacific Design Automation Conference (ASP-DAC 2024) held in Inchon, Korea, from January 22 to 25, 2024.

  • Kunihiro Oshima, Kazunori Kuribara, and Takashi Sato, “Design of aging-robust clonable PUF using organic thin-film transistors and insulator-based ReRAM,” in Proc. ACM/IEEE Asia and South Pacific Design Automation Conference (ASPDAC), pp.165-170, January 2024.
  • Kotaro Matsuoka, Song Bian, and Takashi Sato, “HOGE: Homomorphic gates on a chip,” in Proc. ACM/IEEE Asia and South Pacific Design Automation Conference (ASPDAC), pp.325-332, January 2024.
  • Kohei Suemitsu, Kotaro Matsuoka, Takashi Sato, and Masanori Hashimoto, “Logic locking over TFHE for securing user data and algorithms,” in Proc. ACM/IEEE Asia and South Pacific Design Automation Conference (ASPDAC), pp.600-605, January 2024.

Also, the tutorial entitled “Toward Robust Neural Network Computation on Emerging Crossbar-based Hardware and Digital Systems” was given by Prof. Masanori Hashimoto with Prof. Yiyu Shi (University of Notre Dame).


 

Publication

Paper accepted: IEEE Transactions on Flexible Electronics

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The following paper has been accepted for publication in IEEE Journal on Flexible Electronics. This publication is an outcome of the joint work with National Institute of Advanced Industrial Science.

  • Kunihiro Oshima, Kazunori Kuribara, and Takashi Sato, “Layout design for DNTT-based organic TFTs considering fringe leakage current,” IEEE Journal on Flexible Electronics, doi: 10.1109/JFLEX.2024.3354715, in press.