English

Superconducting processor design optimization for quantum error correction performance

Quantum Physics 2024-03-21 v2
Authors: Xiaotong Ni , Ziang Wang , Rui Chao , Jianxin Chen
View on arXiv PDF

Abstract

In the quest for fault-tolerant quantum computation using superconducting processors, accurate performance assessment and continuous design optimization stands at the forefront. To facilitate both meticulous simulation and streamlined design optimization, we introduce a multi-level simulation framework that spans both Hamiltonian and quantum error correction levels, and is equipped with the capability to compute gradients efficiently. This toolset aids in design optimization, tailored to specific objectives like quantum memory performance. Within our framework, we investigate the often-neglected spatially correlated unitary errors, highlighting their significant impact on logical error rates. We exemplify our approach through the multi-path coupling scheme of fluxonium qubits.

Keywords

fault-tolerant quantum computation quantum computing superconducting qubits

Cite

@article{arxiv.2312.04186,
  title  = {Superconducting processor design optimization for quantum error correction performance},
  author = {Xiaotong Ni and Ziang Wang and Rui Chao and Jianxin Chen},
  journal= {arXiv preprint arXiv:2312.04186},
  year   = {2024}
}

Comments

Added some references

Related papers

View all related →
Quantum Physics · Physics
Optimizing Superconducting Qubit Performance: A Theoretical Framework for Design, Analysis, and Calibration
Sirshi S Ram, Muralikrishna Molli, Vamshi Mohan Katukuri, Bharadwaj Chowdary Mummaneni
2025-01-30
Quantum Physics · Physics
Integrating Quantum Processor Device and Control Optimization in a Gradient-based Framework
Xiaotong Ni, Hui-Hai Zhao, Lei Wang, Feng Wu +1
2023-12-08
Quantum Physics · Physics
Extending the computational reach of a noisy superconducting quantum processor
Abhinav Kandala, Kristan Temme, Antonio D. Corcoles, Antonio Mezzacapo +2
2019-04-10
Quantum Physics · Physics
Quantum computation with universal error mitigation on superconducting quantum processor
Chao Song, Jing Cui, H. Wang, J. Hao +2
2021-12-24
Quantum Physics · Physics
Fluxonium: an alternative qubit platform for high-fidelity operations
Feng Bao, Hao Deng, Dawei Ding, Ran Gao +24
2022-07-01
Quantum Physics · Physics
Enabling large-scale digital quantum simulations with superconducting qubits
Laurin E. Fischer
2026-02-05
Quantum Physics · Physics
Perspective: Reproducible Coherence Characterization of Superconducting Quantum Devices
Corey Rae H McRae, Gregory M Stiehl, Haozhi Wang, Sheng-Xiang Lin +4
2021-10-22
Quantum Physics · Physics
Towards Efficient Superconducting Quantum Processor Architecture Design
Gushu Li, Yufei Ding, Yuan Xie
2019-12-02
Quantum Physics · Physics
Optimizing Qubit Control Pulses for State Preparation
Annika S. Wiening, Joern Bergendahl, Vicente Leyton-Ortega, Peter Nalbach
2024-09-13
Quantum Physics · Physics
The Future of Quantum Computing with Superconducting Qubits
Sergey Bravyi, Oliver Dial, Jay M. Gambetta, Dario Gil +1
2022-11-29
Quantum Physics · Physics
Enabling Technologies for Scalable Superconducting Quantum Computing
Xanthe Croot, Kasra Nowrouzi, Christopher Spitzer, Carmen G. Almudever +20
2025-12-18
Quantum Physics · Physics
Scalable High-Performance Fluxonium Quantum Processor
Long B. Nguyen, Gerwin Koolstra, Yosep Kim, Alexis Morvan +11
2022-12-13
Quantum Physics · Physics
Developments in superconducting erasure qubits for hardware-efficient quantum error correction
Maria Violaris, Luciana Henaut, James Wills, Gioele Consani +2
2026-01-13
Quantum Physics · Physics
Quantum Design Automation: Foundations, Challenges, and the Road Ahead
Feng Wu, Jingzhe Guo, Tian Xia, Linghang Kong +11
2025-11-14
Quantum Physics · Physics
A General Framework for Gradient-Based Optimization of Superconducting Quantum Circuits using Qubit Discovery as a Case Study
Taha Rajabzadeh, Alex Boulton-McKeehan, Sam Bonkowsky, David I. Schuster +1
2024-08-26
Quantum Physics · Physics
Quantum Simulation-Based Optimization for Cooling System Design
Leonhard Hölscher, Lukas Müller, Or Samimi, Tamuz Danzig
2026-03-26
Quantum Physics · Physics
Quantum Circuit Synthesis and Compilation Optimization: Overview and Prospects
Ge Yan, Wenjie Wu, Yuheng Chen, Kaisen Pan +5
2025-10-15
Quantum Physics · Physics
Hardware-Efficient Fault Tolerant Quantum Computing with Bosonic Grid States in Superconducting Circuits
Marc-Antoine Lemonde, Dany Lachance-Quirion, Guillaume Duclos-Cianci, Nicholas E. Frattini +4
2024-09-10
Quantum Physics · Physics
Superconducting qubits in the millions: the potential and limitations of modularity
S. N. Saadatmand, Tyler L. Wilson, Mark J. Hodson, Mark Field +10
2026-03-10
Quantum Physics · Physics
Matching and maximum likelihood decoding of a multi-round subsystem quantum error correction experiment
Neereja Sundaresan, Theodore J. Yoder, Youngseok Kim, Muyuan Li +6
2023-06-23
Quantum Physics · Physics
Designing a Million-Qubit Quantum Computer Using Resource Performance Simulator
Muhammad Ahsan, Rodney Van Meter, Jungsang Kim
2019-03-14
Quantum Physics · Physics
SuperGrad: a differentiable simulator for superconducting processors
Ziang Wang, Feng Wu, Hui-Hai Zhao, Xin Wan +1
2025-04-25
Quantum Physics · Physics
Extending the Computational Reach of a Superconducting Qutrit Processor
Noah Goss, Samuele Ferracin, Akel Hashim, Arnaud Carignan-Dugas +4
2023-05-29
Quantum Physics · Physics
Design Automation in Quantum Error Correction
Archisman Ghosh, Avimita Chatterjee, Swaroop Ghosh
2025-07-17
Quantum Physics · Physics
Automated, physics-guided, multi-parameter design optimization for superconducting quantum devices
Axel M. Eriksson, Lukas J. Splitthoff, Harsh Vardhan Upadhyay, Pietro Campana +4
2025-08-26