Opening
Program
The detailed session schedule for APN 2026 is presented below. All sessions take place at Taiwan Tech in Taipei, Taiwan (UTC+8). A downloadable PDF will be provided once final confirmations are complete.
Day 1 - Thursday, May 14
Keynote Session
Chair: Kohei Shiomoto
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K-1 From node hierarchy to network hierarchy - A cost-effective approach to realize broad-bandwidth optical networks -
Hiroshi Hasegawa (Nagoya University, Japan)
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K-2 Photonic Integration for Optical Interconnect and Switching
San-Liang Lee (National Taiwan University of Science and Technology, Taiwan)
Break
Invited Talk Session 1
Chair: Kohei Shiomoto
AI and Data Center Infrastructure Powered by All-Photonics Networks
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I1-1 From AI to Generative AI: Cross-Domain Innovation and Future Applications
Jing-Ming Guo (National Taiwan University of Science and Technology, Taiwan)
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I1-2 From MN-Core to Services: A Vertically Integrated Approach to Generative AI Infrastructure
Hiroya Kaneko (Preferred Networks, Inc. (PFN), Japan)
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I1-3 Error-correctable High-precision Matrix Multiplication with Optical Accelerators
Shoichi Hirasawa and Michihiro Koibuchi (National Institute of Informatics, Japan)
Lunch
Technical Session 1
Chair: Naoaki Yamanaka
Toward APN for AI Infrastructure
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T1-1 GPU-over-APN: A Photonic-Network-Oriented Architecture for Distributed Transformer Execution
Kohei Shiomoto (Tokyo City University, Japan)
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T1-2 Analytical Modeling of Multi-Dimensional Partitioning for Transformer Inference and Training on GPUs
Kohei Shiomoto (Tokyo City University, Japan)
Organized Session
Chair: Naoaki Yamanaka
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O-1 Transport Protocol Potential for Optical Networks with No/Shallow Buffers
Hideki Tode (Osaka Metropolitan University, Japan)
Break
Poster Session
Chair: Takafumi Tanaka
A. Presentation Poster
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PP-1 Ultra-Fast Correction of Phase Shifter Errors in OPA
Max. Buitendijk (Eindhoven Technical University, The Netherland), Silvano Donati, San-Liang Lee (National Taiwan University of Science and Technology, Taiwan)
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PP-2 Impact of Stimulated Raman Scattering in Real-Time S+C+L Transmission: A Comparison of G.654.E and G.652.D Fibers
Issei Pribyl, Yuta Suzuki, Yuhei Matsumoto, Morihiko Ota, Takefumi Oguma, Hideki Maeda (NEC Corporation, Japan)
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PP-3 Demonstration of Long-Haul 400-Gbit/s Transmission in a Commercial C+L-Band System Using a Recirculating Loop
Ryusei Yamamoto (NEC Platforms, Japan), Yuhei Matsumoto, Yuta Suzuki, Hideki Maeda (NEC Corporation, Japan)
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PP-4 Crosstalk Impact on Wavelength Division Multiplexing of Entanglement-Based Quantum Channels and Classical DWDM Channels in Hollow-Core Fiber
Arisa Ohno, Hikaru Shimizu, Mao Miyasugi, Yumeno Seki, Naoyuki Funaoka (Keio University, Japan), Shun Fujii (National Institute of Information and Communications Technology (NICT), Japan), Hiroyuki Tsuda (Keio University, Japan), Masahiro Takeoka (Keio University, Japan / National Institute of Information and Communications Technology (NICT), Japan)
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PP-5 Effects of Nonlinear Distortion in Optical Fibers for All-Optical Inter-Satellite Networks
Kota Kurome (The University of Osaka, Japan), Shoichiro Oda, Satoshi Shinada (National Institute of Information and Communications Technology (NICT), Japan), Ken Mishina (The University of Osaka, Japan)
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PP-6 DREAM: Trustable AI Infrastructure for Secure Distributed Intelligence
Kohei Shiomoto (Tokyo City University, Japan)
B. Poster Paper
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P-1 C+L Multi-Band Long-Span 800-Gbps Real-Time Transmission Using Received-Power-Flattened Optical Signals under Bidirectional Raman Amplification
Yuhei Matsumoto, Yuta Suzuki, Issei Pribyl, Morihiko Ota, Takefumi Oguma, Hideki Maeda (NEC Corporation, Japan)
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P-2 Real-Time S+C+L Band Transmission with 400/800 Gbit/s Channels Using Transmit Spectrum Shaping for Flat Received Power
Yuta Suzuki, Yuhei Matsumoto, Morihiko Ota, Takefumi Oguma, Hideki Maeda (NEC Corporation, Japan)
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P-3 Investigation of Unrepeatered Long-Distance DWDM Transmission Using Hollow-Core Fiber
Yumeno Seki, Hiroyuki Tsuda (Keio University, Japan)
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P-4 Scalable Multigranularity Layered Optical Networks Enabled by Adaptive OXC-Type Selection
Koki Kidani, Hayato Yuasa, Takuma Kuno (Nagoya University, Japan), Yojiro Mori (Toyota Technological Institute, Japan), Hiroshi Hasegawa (Nagoya University, Japan)
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P-5 100-Gbaud MIMO-Less Polarization-Division-Multiplexed Coherent Transmission over PMF
Yuto Maruyama (Toyota Technological Institute, Japan), Taisei Sekizuka, Takuma Kuno (Nagoya University, Japan), Yojiro Mori (Toyota Technological Institute, Japan)
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P-6 Flow Control for Deterministic Communication over a Wavelength Path Using Linux Network Stack
Yuta Ueno, Shingo Okada, Yukihiro Togari, Tomonori Takeda (NTT, Japan)
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P-7 Development of the IoT PON ONU Prototype Systems using Power over Fiber Technologies
Satoru Okamoto, Naoaki Yamanaka (Keio University, Japan)
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P-8 Graph Agent Routing: Improving Throughput and Transmission Quality in Optical Networks with Reinforcement Learning
Ngoc-Long Do, Duy-Phuong Trinh, Nattapong Kitsuwan (The University of Electro-Communications, Japan)
Wrap-up Session 1
Excursion
Dinner
Day 1 End