[16p-K306-1~11] FS.1 Focused Session "AI Electronics" | The 72nd JSAP Spring Meeting 2025

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Session Details

Oral presentationFS Focused Session "AI Electronics" : FS.1 Focused Session "AI Electronics"

[16p-K306-1~11]FS.1 Focused Session "AI Electronics"

Sun. Mar 16, 2025 1:30 PM - 4:30 PM JST
Sun. Mar 16, 2025 4:30 AM - 7:30 AM UTC

K306 (Lecture Hall Bldg.)

Kensuke Ota(Sony Semiconductor Solutions), Takao Marukame(Hokkaido Univ.)

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1:30 PM - 1:45 PM JST(4:30 AM - 4:45 AM UTC)

[16p-K306-1][T] Development of a Multi-Time-Scale Ion-Gating Reservoir for Brain-Inspired Computing

〇Daiki Nishioka¹, Hina Kitano^1,2, Wataru Namiki¹, Kazuya Terabe¹, Takashi Tsuchiya^1,2 (1.NIMS, 2.Tokyo Univ. Sci.)

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1:45 PM - 2:00 PM JST(4:45 AM - 5:00 AM UTC)Presentation by Applicant for JSAP Young Scientists Presentation Award

[16p-K306-2]Physical Reservoir Computing Utilizing Dielectric Relaxation Properties of
Organic Ionic Plastic Crystals

〇(M1)Yusuke Tsuchiya¹, Hinata Hashimoto¹, Yoshifumi Hirotsu², Masahiro Yoshizawa-Fujita², Yumeng Zheng¹, Kentaro Kinoshita¹ (1.Tokyo Univ. of sci., 2.Sophia Univ.)

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2:00 PM - 2:15 PM JST(5:00 AM - 5:15 AM UTC)Presentation by Applicant for JSAP Young Scientists Presentation AwardEnglish Presentation

[16p-K306-3]FPGA Based Physical Reservoir Computing with Ag2Se Atomic Switching Network Device

〇(D)Ahmet KARACALI¹, Yuki Usami^1,2, Hirofumi Tanaka^1,2 (1.LSSE, Kyutech, 2.Neumorph Center, Kyutech)

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2:15 PM - 2:30 PM JST(5:15 AM - 5:30 AM UTC)Presentation by Applicant for JSAP Young Scientists Presentation Award

[16p-K306-4]Edge-of-chaos State Realized in Spin-Wave Interference-Based Reservoir Computing

〇(M1)Maki Nishimura^1,2, Wataru Namiki¹, Daiki Nishioka¹, Kazuya Terbe¹, Takashi Tsuchiya^1,2 (1.NIMS, 2.Tokyo Univ. Sci.)

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2:30 PM - 2:45 PM JST(5:30 AM - 5:45 AM UTC)Presentation by Applicant for JSAP Young Scientists Presentation Award

[16p-K306-5]Spoken digit recognition using reservoir computing utilizing interfered spin wave

〇(B)Sota Hikasa^1,2, Wataru Namiki², Daiki Nishioka², Maki Nishimura^1,2, Kazuya Terabe², Takashi Tsuchiya^1,2 (1.Tokyo Univ. Sci, 2.NIMS)

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2:45 PM - 3:00 PM JST(5:45 AM - 6:00 AM UTC)Presentation by Applicant for JSAP Young Scientists Presentation AwardEnglish Presentation

[16p-K306-6]Simulation of In-materio Physical Reservoir using Unidirectional Cluster-Based Echo State Network

〇(M1)Tu Truong Huynh¹, Moulika Desu¹, Yuichiro Tanaka^1,2, Hirofumi Tanaka^1,2 (1.LSSE, Kyutech, 2.Neumorph Center, Kyutech)

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3:15 PM - 3:30 PM JST(6:15 AM - 6:30 AM UTC)

[16p-K306-7]Time invariant transformation of spin-torque oscillator

〇Yusuke Imai¹, Tomoyuki Kubota¹, Sumito Tsunegi², Kohei Nakajima¹ (1.Univ. of Tokyo, 2.AIST)

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3:30 PM - 3:45 PM JST(6:30 AM - 6:45 AM UTC)

[16p-K306-8]Temperature/impurity control of magnetic dynamics in high-temperature spin glass
Lu₃Fe_5-2xCo_xSi_xO₁₂and its application for physical reservoir computing

〇(B)Ritsuki Sonetaka¹, Md Shamim Sarker^1,2, EMK Ahamed Ekball¹, Hiroyasu Yamahara^1,2, Hitoshi Tabata^1,2 (1.The Univ. of Tokyo, 2.Inst. for AI and Beyond)

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3:45 PM - 4:00 PM JST(6:45 AM - 7:00 AM UTC)

[16p-K306-9]Performance improvement of FeFET reservoir computing through modified conversion of analog time-series data into input voltage

〇Eishin Nako¹, Kasidit Toprasertpong¹, Ryosho Nakane¹, Mitsuru Takenaka¹, Shinichi Takagi¹ (1.Univ. Tokyo)

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4:00 PM - 4:15 PM JST(7:00 AM - 7:15 AM UTC)

[16p-K306-10]Study on efficient combinations of FeFETs with different timing of gate and substrate inputs for FeFET reservoir computing

〇Eishin Nako¹, Kasidit Toprasertpong¹, Ryosho Nakane¹, Mitsuru Takenaka¹, Shinichi Takagi¹ (1.Univ. Tokyo)

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4:15 PM - 4:30 PM JST(7:15 AM - 7:30 AM UTC)Highlighted Presentation

[16p-K306-11]Physical reservoir device utilizing electrochemical reaction in high-resolution ionogel pattern fabricated by printed electronics technology

〇Hisashi SHIMA¹, Yasuyuki Kusaka¹ (1.AIST)

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Session Details

[16p-K306-1~11]FS.1 Focused Session "AI Electronics"

[16p-K306-1][T] Development of a Multi-Time-Scale Ion-Gating Reservoir for Brain-Inspired Computing

[16p-K306-2]Physical Reservoir Computing Utilizing Dielectric Relaxation Properties ofOrganic Ionic Plastic Crystals

[16p-K306-3]FPGA Based Physical Reservoir Computing with Ag2Se Atomic Switching Network Device

[16p-K306-4]Edge-of-chaos State Realized in Spin-Wave Interference-Based Reservoir Computing

[16p-K306-5]Spoken digit recognition using reservoir computing utilizing interfered spin wave

[16p-K306-6]Simulation of In-materio Physical Reservoir using Unidirectional Cluster-Based Echo State Network

[16p-K306-7]Time invariant transformation of spin-torque oscillator

[16p-K306-8]Temperature/impurity control of magnetic dynamics in high-temperature spin glass Lu3Fe5-2xCoxSixO12 and its application for physical reservoir computing

[16p-K306-9]Performance improvement of FeFET reservoir computing through modified conversion of analog time-series data into input voltage

[16p-K306-10]Study on efficient combinations of FeFETs with different timing of gate and substrate inputs for FeFET reservoir computing

[16p-K306-11]Physical reservoir device utilizing electrochemical reaction in high-resolution ionogel pattern fabricated by printed electronics technology

[16p-K306-2]Physical Reservoir Computing Utilizing Dielectric Relaxation Properties of
Organic Ionic Plastic Crystals

[16p-K306-8]Temperature/impurity control of magnetic dynamics in high-temperature spin glass
Lu₃Fe_5-2xCo_xSi_xO₁₂and its application for physical reservoir computing