Papers accepted for DAC2024

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%)

ASPDAC2024

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).


 

Paper accepted: IEEE Transactions on Flexible Electronics

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.