Superconducting Systems: Processors and Modular Architectures
ORAL · MAR-P11 · ID: MAR-P11
Presentations
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Design and operation of packages for monolithic 3" devices containing >500 superconducting qubits
Oral-In-person
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Presenters
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Oscar Kennedy
- Oxford Quantum Circuits
Authors
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Oscar Kennedy
- Oxford Quantum Circuits
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Waqas Ahmad
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Robert Armstrong
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Amir Awawdeh
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Anirban Bose
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Kevin Crawford
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Sergey Danilin
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William David
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Hamid El Maazouz
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Darren Hayton
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Alexey Lyapin
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Kowsar Shahbazi
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Ryan Wesley
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Evan Wong
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Connor Shelly
- Oxford Quantum Circuits
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Autonomous calibration of superconducting hardware: challenges and opportunities
Oral-In-person
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Presenters
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Giacomo Torlai
- Q-CTRL
Authors
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Aaron Barbosa
- Q-CTRL Pty Ltd
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José Chávez-Garcia
- Q-CTRL
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Claire Edmunds
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Shobhan Kulshreshtha
- Q-CTRL
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Taewan Noh
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Adrian Tan
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Pranav Mundada
- Q-CTRL Pty Ltd
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Giacomo Torlai
- Q-CTRL
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Recent Progress in Superconducting Quantum Computing at USTC
Invited-Virtual · Invited
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Presenters
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Chen Zha
- 中国科学技术大学
Authors
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Chen Zha
- 中国科学技术大学
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Dongxin Gao
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Daojin Fan
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Demonstration of Tantalum-Tantalum Thermocompression Bonding for Vertical Integration of Superconducting Qubit
Oral-In-person
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Publication: [1] H. Mishra, S. Bonam, V. Kumar and S. G. Singh, "Novel Wafer-Level Ta-Ta Direct Thermocompression Bonding for 3D Integration of Superconducting Interconnects for Scalable Quantum Computing System," in IEEE Electron Device Letters, vol. 45, no. 11, pp. 2221-2224, Nov. 2024, doi: 10.1109/LED.2024.3453174.
[2] Harsh Mishra, Sathish Bonam, Ullas Pandey, and Shiv Govind Singh: A THREE-DIMENSIONAL VERTICALLY INTEGRATED SUPERCONDUCTING QUBIT AND METHOD FOR PREPARING THE SAME (Application No.202441102730 A.)Presenters
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Harsh Mishra
- Indian Institute of Technology (IIT) Hyderabad
Authors
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Harsh Mishra
- Indian Institute of Technology (IIT) Hyderabad
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Sathish Bonam
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Shiv Govind Singh
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A Vertically Integrated Platform for Superconducting Qubit Development
Oral-In-person
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Presenters
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Jun-Yi Tsai
- Research Center for Critical Issues, Academia Sinica
Authors
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Jun-Yi Tsai
- Research Center for Critical Issues, Academia Sinica
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Chung-Ting Ke
- Academia Sinica
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Chii-Dong Chen
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VIO, an architecture for scaling superconducting quantum processors - Part 1: introducing the architecture
Oral-In-person
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Presenters
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Alessandro Bruno
- QuantWare
Authors
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Alessandro Bruno
- QuantWare
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Marten Arthers
- QuantWare
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VIO, an architecture for scaling superconducting quantum processors - Part 2: experimental results
Oral-In-person
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Presenters
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Marten Arthers
- QuantWare
Authors
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Marten Arthers
- QuantWare
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Alessandro Bruno
- QuantWare
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Practical implementation of a densely connected, parametric 6 qubit machine.
Oral-In-person
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Presenters
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Gaurav Agarwal
- Yale University
Authors
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Gaurav Agarwal
- Yale University
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Israa Yusuf
- University of Pittsburgh, Yale University
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Evan McKinney
- University of Pittsburgh
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Mingkang Xia
- University of Pittsburgh
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Jacob Repicky
- Yale University
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Param Patel
- University of Pittsburgh
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Alex Jones
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Michael Hatridge
- Yale University
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Measurement-Based Private Quantum Computing on a Modular Superconducting Processor
Oral-In-person
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Presenters
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Jean-Claude Besse
- ETH Zurich
Authors
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Yongxin Song
- ETH Zurich
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Johannes Knörzer
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Kieran Dalton
- ETH Zurich
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Andreas Wallraff
- ETH Zurich
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Jean-Claude Besse
- ETH Zurich
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Near-term optimization and machine learning applications in emerging superconducting qudit processors
Oral-In-person
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Publication: [1] Venturelli, Davide, et al. "Near-term application engineering challenges in emerging superconducting qudit processors." 2025 55th Annual IEEE/IFIP International Conference on Dependable Systems and Networks Workshops (DSN-W). IEEE, 2025.
[2] Maciejewski, Filip B., et al. "Improving quantum approximate optimization by noise-directed adaptive remapping." arXiv preprint arXiv:2404.01412 (2024).Presenters
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Davide Venturelli
- USRA and NASA Ames Research Center
Authors
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Davide Venturelli
- USRA and NASA Ames Research Center
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Doga Kurkcuoglu
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Erik Gustafson
- USRA - Univ Space Rsch Assoc
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Silvia Zorzetti
- Fermi National Accelerator Laboratory (Fermilab)
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Automated Design, Compilation, and Performance Benchmarking for Fault-Tolerant Quantum Computer Architectures Using TopQAD
Oral-In-person
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Publication: [1] 1QB Information Technologies (1QBit). TopQAD: Topological Quantum Architecture Design, 2024.
doi.org/10.70781/YPWW8761.
[2] A. Silva, X. Zhang, Z. Webb, M. Kramer, C.-W. Yang, J. Lemieux, X. Liu, K.-W. Chen, A. Scherer,
and P. Ronagh. Multi-qubit lattice surgery scheduling. In Proceedings of the 19th Conference on the
Theory of Quantum Computation, Communication and Cryptography (TQC 2024). Leibniz International
Proceedings in Informatics (LIPIcs), 2024.
[3] A. Silva, A. Scherer, Z. Webb, A. Khalid, B. Kulchytskyy, M. Kramer, K. Nguyen, X. Kong,
G. A. Dagnew, Y. Wang, H. A. Nguyen, K. Olfert, and P. Ronagh. Optimizing multi-level magic
state factories for fault-tolerant quantum architectures. arXiv preprint arXiv:2411.04270, 2025. doi:
10.48550/arXiv.2411.04270.
[4] M. Mohseni, A. Scherer, K. G. Johnson, O. Wertheim, M. Otten, N. A. Aadit, K. M. Bresniker, K. Y.
Camsari, B. Chapman, S. Chatterjee, et al. How to build a quantum supercomputer: Scaling from
hundreds to millions of qubits. arXiv preprint arXiv:2411.10406, 2025. doi:10.48550/arXiv.2411.10406Presenters
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Artur Scherer
- 1QBit
Authors
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Artur Scherer
- 1QBit
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Severyn Balaniuk
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Gebremedhin Dagnew
- 1QBit
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Einar Gabbassov
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Saneer Gera
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Ali Kavaki
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Abdullah Khalid
- 1QBit
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Xiangzhou Kong
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Mia Kramer
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Bohdan Kulchytskyy
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Pouria Lotfi
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Huy-Anh Nguyen
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Kevin Nguyen
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Katiemarie Olfert
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Allyson Silva
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Boyan Torosov
- 1QBit
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Yumeng Wang
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Zak Webb
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Chan-Woo Yang
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Xiangyi Zhang
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Pooya Ronagh
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