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Junichiro Kadomoto
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2020 – today
- 2024
- [c32]Shun Nagasaki, Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
Multi-Tree Network Protocol Enabling System Partitioning for Shape-Changeable Computer System. CF 2024 - [c31]Masato Goto, Ibuki Sugiyama, Kenta Higuchi, Toshiki Goto, Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
CommuTiles: Shape-Changeable Modular Computer System Using Proximity Wireless Communication. CHI Extended Abstracts 2024: 395:1-395:5 - [c30]Shoi To, Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
DataPipettor: Touch-Based Information Transfer Interface Using Proximity Wireless Communication. UIST (Adjunct Volume) 2024: 94:1-94:3 - 2023
- [j8]Shun Nagasaki, Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
Dynamically Reconfigurable Network Protocol for Shape-Changeable Computer System. IEEE Des. Test 40(6): 18-29 (2023) - [j7]Yuya Degawa, Toru Koizumi, Tomoki Nakamura, Ryota Shioya, Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
A Principal Factor of Performance in Decoupled Front-End. IEICE Trans. Inf. Syst. 106(12): 1960-1968 (2023) - [j6]Rin Oishi, Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
FPGA-based Garbling Accelerator with Parallel Pipeline Processing. IEICE Trans. Inf. Syst. 106(12): 1988-1996 (2023) - [c29]Taichi Amano, Junichiro Kadomoto, Satoshi Mitsuno, Toru Koizumi, Ryota Shioya, Hidetsugu Irie, Shuichi Sakai:
An Out-of-Order Superscalar Processor Using STRAIGHT Architecture in 28 nm CMOS. ISCAS 2023: 1-5 - [c28]Toru Koizumi, Ryota Shioya, Shu Sugita, Taichi Amano, Yuya Degawa, Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
Clockhands: Rename-free Instruction Set Architecture for Out-of-order Processors. MICRO 2023: 1-16 - [c27]Kenta Higuchi, Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
Poster Abstract: Investigation of Distance Sensing Method Using Magnetic Resonant Coupled Coils for Deformable User Interfaces. SenSys 2023: 502-503 - [c26]Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
Poster Abstract: Towards a Tiny Digital Displacement Sensor Utilizing Bit-Error Characteristics of Inter-Chip Wireless Bus. SenSys 2023: 554-555 - [c25]Yusuke Izawa, Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
A Functional Reactive Programming Language for Wirelessly Connected Shape-Changeable Chiplet-Based Computers. SPLASH Companion 2023: 61-62 - [c24]Takashi Murayama, Shu Sugita, Hiroyuki Saegusa, Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
iKnowde: Interactive Learning Path Generation System Based on Knowledge Dependency Graphs. UIST (Adjunct Volume) 2023: 25:1-25:3 - 2022
- [c23]Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
Deformable Chiplet-Based Computer Using Inductively Coupled Wireless Communication. ASP-DAC 2022: 98-99 - [c22]Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
Evaluation of Different Microarchitectures for Energy-Efficient RISC-V Cores. MCSoC 2022: 78-84 - 2021
- [j5]Junichiro Kadomoto, Takuya Sasatani, Koya Narumi, Naoto Usami, Hidetsugu Irie, Shuichi Sakai, Yoshihiro Kawahara:
Toward Wirelessly Cooperated Shape-Changing Computing Particles. IEEE Pervasive Comput. 20(3): 9-17 (2021) - [c21]Yuya Degawa, Toru Koizumi, Tomoki Nakamura, Ryota Shioya, Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
Accurate and Fast Performance Modeling of Processors with Decoupled Front-end. ICCD 2021: 88-92 - [c20]Toru Koizumi, Shu Sugita, Ryota Shioya, Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
Compiling and Optimizing Real-world Programs for STRAIGHT ISA. ICCD 2021: 400-408 - [c19]Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
Multiport Register File Design for High-Performance Embedded Cores. MCSoC 2021: 281-286 - 2020
- [c18]Junichiro Kadomoto, Satoshi Mitsuno, Hidetsugu Irie, Shuichi Sakai:
An Inductively Coupled Wireless Bus for Chiplet-Based Systems. ASP-DAC 2020: 9-10 - [c17]Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
A Self-Sensing Technique Using Inductively-Coupled Coils for Deformable User Interfaces. AsianCHI@CHI 2020: 7 - [c16]Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
A RISC-V Processor with an Inter-Chiplet Wireless Communication Interface for Shape-Changeable Computers. COOL CHIPS 2020: 1-3 - [c15]Satoshi Mitsuno, Junichiro Kadomoto, Toru Koizumi, Ryota Shioya, Hidetsugu Irie, Shuichi Sakai:
A High-Performance Out-of-Order Soft Processor Without Register Renaming. FPL 2020: 73-78 - [c14]Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
Design of Shape-Changeable Chiplet-Based Computers Using an Inductively Coupled Wireless Bus Interface. ICCD 2020: 589-596
2010 – 2019
- 2019
- [c13]Ryosuke Takada, Junichiro Kadomoto, Buntarou Shizuki:
A Sensing Technique for Data Glove Using Conductive Fiber. CHI Extended Abstracts 2019 - [c12]Junichiro Kadomoto, Hidetsugu Irie, Shuichi Sakai:
WiXI: An Inter-Chip Wireless Bus Interface for Shape-Changeable Chiplet-Based Computers. ICCD 2019: 100-108 - [c11]Susumu Mashimo, Koji Inoue, Ryota Shioya, Akifumi Fujita, Reoma Matsuo, Seiya Akaki, Akifumi Fukuda, Toru Koizumi, Junichiro Kadomoto, Hidetsugu Irie, Masahiro Goshima:
An Open Source FPGA-Optimized Out-of-Order RISC-V Soft Processor. FPT 2019: 63-71 - 2018
- [j4]Akio Nomura, Yusuke Matsushita, Junichiro Kadomoto, Hiroki Matsutani, Tadahiro Kuroda, Hideharu Amano:
Escalator Network for a 3D Chip Stack with Inductive Coupling ThruChip Interface. Int. J. Netw. Comput. 8(1): 124-139 (2018) - [c10]Junichiro Kadomoto, Toru Koizumi, Akifumi Fukuda, Reoma Matsuo, Susumu Mashimo, Akifumi Fujita, Ryota Shioya, Hidetsugu Irie, Shuichi Sakai:
An Area-Efficient Out-of-Order Soft-Core Processor Without Register Renaming. FPT 2018: 374-377 - [c9]Kodai Ueyoshi, Kota Ando, Kazutoshi Hirose, Shinya Takamaeda-Yamazaki, Junichiro Kadomoto, Tomoki Miyata, Mototsugu Hamada, Tadahiro Kuroda, Masato Motomura:
QUEST: A 7.49TOPS multi-purpose log-quantized DNN inference engine stacked on 96MB 3D SRAM using inductive-coupling technology in 40nm CMOS. ISSCC 2018: 216-218 - 2017
- [c8]Akio Nomura, Junichiro Kadomoto, Tadahiro Kuroda, Hideharu Amano:
A Practical Collision Avoidance Method for an Inter-Chip Bus with Wireless Inductive through Chip Interface. CANDAR 2017: 126-131 - [c7]Junichiro Kadomoto, Hideharu Amano, Tadahiro Kuroda:
An inductive-coupling link for 3-D Network-on-Chips. ISOCC 2017: 150-151 - 2016
- [j3]Junichiro Kadomoto, So Hasegawa, Yusuke Kiuchi, Atsutake Kosuge, Tadahiro Kuroda:
Analysis and Evaluation of Electromagnetic Interference between ThruChip Interface and LC-VCO. IEICE Trans. Electron. 99-C(6): 659-662 (2016) - [j2]Atsutake Kosuge, Junichiro Kadomoto, Tadahiro Kuroda:
A 6 Gb/s 6 pJ/b 5 mm-Distance Non-Contact Interface for Modular Smartphones Using Two-Fold Transmission Line Coupler and High EMC Tolerant Pulse Transceiver. IEEE J. Solid State Circuits 51(6): 1446-1456 (2016) - [c6]Li-Chung Hsu, Junichiro Kadomoto, So Hasegawa, Atsutake Kosuge, Yasuhiro Take, Tadahiro Kuroda:
Analytical thruchip inductive coupling channel design optimization. ASP-DAC 2016: 731-736 - [c5]Junichiro Kadomoto, Tomoki Miyata, Hideharu Amano, Tadahiro Kuroda:
An inductive-coupling bus with collision detection scheme using magnetic field variation for 3-D network-on-chips. A-SSCC 2016: 41-44 - [c4]So Hasegawa, Junichiro Kadomoto, Atsutake Kosuge, Tadahiro Kuroda:
A 1 Tb/s/mm2 inductive-coupling side-by-side chip link. ESSCIRC 2016: 469-472 - [c3]Akio Nomura, Hiroki Matsutani, Tadahiro Kuroda, Junichiro Kadomoto, Yusuke Matsushita, Hideharu Amano:
Vertical Packet Switching Elevator Network Using Inductive Coupling ThruChip Interface. CANDAR 2016: 195-201 - 2015
- [j1]Li-Chung Hsu, Junichiro Kadomoto, So Hasegawa, Atsutake Kosuge, Yasuhiro Take, Tadahiro Kuroda:
A Study of Physical Design Guidelines in ThruChip Inductive Coupling Channel. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 98-A(12): 2584-2591 (2015) - [c2]Li-Chung Hsu, Yasuhiro Take, Atsutake Kosuge, So Hasegawa, Junichiro Kadamoto, Tadahiro Kuroda:
Design and analysis for ThruChip design for manufacturing (DFM). ASP-DAC 2015: 46-47 - [c1]Atsutake Kosuge, Shu Ishizuka, Junichiro Kadomoto, Tadahiro Kuroda:
10.1 A 6Gb/s 6pJ/b 5mm-distance non-contact interface for modular smartphones using two-fold transmission-line coupler and EMC-qualified pulse transceiver. ISSCC 2015: 1-3
Coauthor Index
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last updated on 2024-12-05 21:40 CET by the dblp team
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