Program Schedule

August 24

09:00 – 09:30 Opening Chair : Kyung Hwan Oh (Professor, Yonsei Univ.)
09:00 – 09:10 Welcome Remark Seoung-Hwan Suh (President, Yonsei Univ.)
09:10 - 09:15 Congratulatory Remark Kohei Itoh (President, Keio Univ.)
09:15 – 09:20 Introduction to NTU CQSE, and QIS Thematic Groups at NCTS-Physics Hsi-Sheng Goan (Director, NTU CQSE)
09:20 – 09:25 Introduction to Keio Quantum Computing Center Shinichi Niimi (Research PM, Keio QCC)
09:25 – 09:30 Opening Remark Kyungsun Moon (Director, Yonsei IQIT)
09:30 – 10:00 Coffee Break & Group Photos
10:00 – 12:00 Session 1 (Regular Talk) Chair : Shiho Kim (Professor, Yonsei Univ.)
10:00 – 10:40 Quantum Machine Learning Research at Yonsei University Kyungdeock Daniel Park (Professor, Yonsei Univ.)
10:40 – 11:20 Recent achievements in Keio University Quantum Computing Center for AI application Naoki Yamamoto (Chair, Keio QCC)
11:20 – 12:00 Quantum Reinforcement Learning and Quantum Classifiers Hsi-Sheng Goan (Professor, NTU)
12:00 – 13:30 Lunch time
13:30 – 16:00 Session 2 (Regular Talk) Chair : Yohichi Suzuki (Professor, Keio Univ.)
13:30 – 14:10 Towards the Fundamental Limits of Efficient Quantum Transduction Chiao-Hsuan Wang (Professor, NTU)
14:10 – 14:50 Developing Applications on IBM Quantum with Partners Yukio Kawashima (Researcher, IBM Japan)
14:50 - 15:20 Coffee break and Poster session
15:20 – 16:00 Quantum algorithms for the direct computation of the energy gaps of atoms and molecules Kenji Sugisaki (Professor, Keio Univ.)
16:00 – 17:45 Session 3 (Short Talk) Chair : Hao-Chung Cheng (Professor, NTU)
16:00 – 16:15 Quantum channel decomposition with pre- and post-selection Ryo Nagai (Researcher, Keio QCC/Hitachi)
16:15 – 16:30 Hexagonal lattice with circuit QED system by triple-leg stripline resonator Dongmin Kim (Researcher, Yonsei IQIT)
16:30 – 16:45 Accurate and Efficient Quantum Computation of Molecular Properties Shih-Kai Chou (Researcher, NTU)
16:45 – 17:00 Quantum computing quantum Monte Carlo with hybrid tensor network toward electronic structure calculations of large-scale molecular and solid systems Shu Kanno (Researcher, Keio QCC/Mitsubishi Chemical)
17:00 – 17:15 A Possible Design Flaw of the Sublinear-Resource Quantum Integer Factoring Algorithm Hao-Yu Chung (Researcher, NTU)
17:15 – 17:30 Low-rank Quantum State Preparation Israel F. Araujo (Researcher, Yonsei Univ.)
17:30 – 21:00 Reception

August 25

09:00 – 10:20 Session 4 (Regular Talk) Chair : Kenji Sugisaki (Professor, Keio Univ.)
09:00 – 09:40 Research on Using Digital Computers for Quantum Computers Won Woo Ro (Professor, Yonsei Univ.)
09:40 – 10:20 Evidence for the utility of quantum computing before fault tolerance Youngseok Kim (Researcher, IBM USA)
10:20 – 10:40 Coffee Break and Poster session
10:40 – 12:00 Session 5 (Regular Talk) Chair : Chiao-Hsuan Wang (Professor, NTU)
10:40 – 11:20 Research progress of financial team at Keio University Quantum Computing Center Yohichi Suzuki (Professor, Keio Univ.)
11:20 – 12:00 Robust Qubit Mapping Algorithm via Double-Source Optimal Routing on Large Quantum Circuits Hao-Chung Cheng (Professor, NTU)
12:00 – 13:00 Closing Remark & Lunch time
13:00 – 17:00 Site Tour
17:00 – Dinner

Poster Presentation

Keio

  • Hiroshi Yano : A new information criterion for quantum state estimation
  • Hiroyuki Harada : Optimal parallel wire cutting without ancilla qubits
  • Kentaro Tamura : Quantum Random Access Optimization Under Noise
  • Toshiki Yasuda : Measurement Based Quantum Reservoir Computing

NTU

  • Chi-Chun Chen, Black-Litterman Portfolio Optimization for Noisy Intermediate-Scale Quantum Computers
  • Tian-Fu Chen, Synthesis of Rotation Operations for Fault-Tolerant Quantum Computation

Yonsei

  • Yousung Kang and Kyungsun Moon, Effective Hamiltonian for Cross-Cross Resonance gate and Frequency tuning in Transmon qubits
  • Dongmin Kim and Kyungsun Moon, Circuit QED system with Triple-Leg Stripline Resonator
  • Uimin Lee : Circuit Depth-aware Transformation for Monte Carlo Tree Search with Noisy Intermediate-Scale Quantum Computers
  • Hyunseong Jung : Quantum Leap: Advantage of generalization performance of QML and Quantum-enhanced experimental validation
  • P. Yadav : Quantum Walk-based Node Search in a Binary Tree
  • Tak Hur : Neural Quantum Embedding: Pushing the Limits of Quantum Supervised Learning
  • Myeonghwan Seong : Hamiltonian formulation of unsupervised data clustering
  • ChangWon Lee : Scalable quantum measurement error mitigation via conditional independence and transfer learning
  • Hyeondo Oh : Quantum support vector data description for anomaly detection