Research field (2):
Information networks
, Computer systems
Research theme for competitive and other funds (2):
2017 - 2022 Spintronics-Based Hardware Paradigm for Artificial Intelligence
2013 - 2016 Design of a nonvolatile FPGA with system self-recovery function
Papers (72):
SUZUKI Daisuke, TAKAHIRO Hanyu. Design of an Energy-Efficient Controller for Realizing a Data-Shift-Minimized Nonvolatile FPGA. International Conference on Solid-State Devices and Materials. 2019. 525-526
SUZUKI Daisuke. Challenge of Logic-Circuit Techniques for MTJ-Based Nonvolatile FPGAs. The 2nd Symposium for World Leading Research Centers. 2019. 56-56
Suzuki Daisuke, Hanyu Takahiro. C-12-34 A Self-Terminated MTJ Write Driver and Its Application to a Random Number Generator. Proceedings of the IEICE General Conference. 2016. 2016. 2. 107-107
Suzuki Daisuke, Tabata Yuki, Hanyu Takahiro. C-12-15 DESIGN OF A POWER MANAGEMENT MODULE FOR A LOGIC-IN-MEMORY-BASED NONVOLATILE FPGA. Proceedings of the IEICE General Conference. 2015. 2015. 2. 76-76
Hanyu Takahiro, Matsunaga Shoun, Suzuki Daisuke, Mochizuki Akira, Natsui Masanori. AT-1-3 Prospects of MTJ-Based Nonvolatile Logic-in-Memory VLSI. Proceedings of the IEICE General Conference. 2014. 2014. "SS-16"
Introduction to Magnetic Random-Access Memory
2016
Lectures and oral presentations (62):
Design of an Energy-Efficient Controller for Realizing a Data-Shift-Minimized Nonvolatile FPGA
(2019 International Conference on Solid State Devices and Materials 2019)
Challenge of Energy-efficient AI Hardware Based on Nonvolatile Logic
(Symposium of Yotta Informatics - Research Platform for Yotta-Scale Data Science 2019 2019)
MTJ-Based Nonvolatile FPGA and Its Prospects for Brainware LSI Platform
(The 6th International Symposium on Brainware LSI 2019)
Challenge of Logic-Circuit Techniques for MTJ-Based Nonvolatile FPGAs
(2019)
Recent Trends in MTJ-Based Nonvolatile FPGA
(CSRN-Osaka Annual Workshop 2018)