Demonstrating quantum error mitigation on logical qubits

Aosai Zhang, Haipeng Xie, Yu Gao, Jianan Yang, Zehang Bao, Zitian Zhu, Jiachen Chen, Ning Wang, Chuanyu Zhang, Jiarun Zhong

Type: Preprint

Publication Date: 2025-01-15

Citations: 0

DOI: https://doi.org/10.48550/arxiv.2501.09079

View Publication

Download PDF

Abstract

A long-standing challenge in quantum computing is developing technologies to overcome the inevitable noise in qubits. To enable meaningful applications in the early stages of fault-tolerant quantum computing, devising methods to suppress post-correction logical failures is becoming increasingly crucial. In this work, we propose and experimentally demonstrate the application of zero-noise extrapolation, a practical quantum error mitigation technique, to error correction circuits on state-of-the-art superconducting processors. By amplifying the noise on physical qubits, the circuits yield outcomes that exhibit a predictable dependence on noise strength, following a polynomial function determined by the code distance. This property enables the effective application of polynomial extrapolation to mitigate logical errors. Our experiments demonstrate a universal reduction in logical errors across various quantum circuits, including fault-tolerant circuits of repetition and surface codes. We observe a favorable performance in multi-round error correction circuits, indicating that this method remains effective when the circuit depth increases. These results advance the frontier of quantum error suppression technologies, opening a practical way to achieve reliable quantum computing in the early fault-tolerant era.

Locations

arXiv (Cornell University) - View - PDF

Similar Works

Action	Title	Year	Authors
+	Exponential suppression of bit or phase flip errors with repetitive quantum error correction	2021	Zijun Chen Kevin J. Satzinger Juan Atalaya Alexander N. Korotkov A. Dunsworth D. Sank Chris Quintana Matt McEwen R. Barends Paul V. Klimov
+ PDF Chat	Suppressing quantum errors by scaling a surface code logical qubit	2022	Rajeev Acharya I. L. Aleǐner Richard P. Allen Trond I. Andersen M. Ansmann Frank Arute Kunal Arya Abraham Asfaw Juan Atalaya Ryan Babbush
+	Suppressing quantum errors by scaling a surface code logical qubit	2022	Rajeev Acharya I. L. Aleǐner Richard P. Allen Trond I. Andersen M. Ansmann Frank Arute Kunal Arya Abraham Asfaw Juan Atalaya Ryan Babbush
+	Zero noise extrapolation on logical qubits by scaling the error correction code distance	2023	Misty A. Wahl Andrea Mari Nathan Shammah William J. Zeng Gokul Subramanian Ravi
+ PDF Chat	Exponential suppression of bit or phase errors with cyclic error correction	2021	Zijun Chen Kevin J. Satzinger Juan Atalaya Alexander N. Korotkov A. Dunsworth D. Sank Chris Quintana Matt McEwen R. Barends Paul V. Klimov
+ PDF Chat	Removing leakage-induced correlated errors in superconducting quantum error correction	2021	Matt McEwen Dvir Kafri Z. Chen Juan Atalaya Kevin J. Satzinger Chris Quintana Paul V. Klimov D. Sank Craig Gidney Austin G. Fowler
+ PDF Chat	Halma: a routing-based technique for defect mitigation in quantum error correction	2024	Rong Zhou Zhang Fang Linghang Kong Jianxin Chen
+	Q-Pandora Unboxed: Characterizing Noise Resilience of Quantum Error Correction Codes	2023	Avimita Chatterjee Subrata K. Das Swaroop Ghosh
+ PDF Chat	Quantum computation with universal error mitigation on a superconducting quantum processor	2019	Chao Song Jing Cui H. Wang Jie Hao Hui Feng Ying Li
+	NISQ+: Boosting quantum computing power by approximating quantum error correction	2020	Adam Holmes Mohammad Reza Jokar Ghasem Pasandi Yongshan Ding Massoud Pedram Frederic T. Chong
+	NISQ+: Boosting quantum computing power by approximating quantum error correction	2020	Adam Holmes Mohammad Reza Jokar Ghasem Pasandi Yongshan Ding Massoud Pedram Frederic T. Chong
+ PDF Chat	Transversal CNOT gate with multi-cycle error correction	2024	Younghun Kim M. E. Sevior Muhammad Usman
+	Realizing Repeated Quantum Error Correction in a Distance-Three Surface Code	2021	Sebastian Krinner Nathan Lacroix Ants Remm Agustín Di Paolo Élie Genois Catherine Leroux Christoph Hellings Stefania Lazar Francois Swiadek J. Herrmann
+ PDF Chat	Q3DE: A fault-tolerant quantum computer architecture for multi-bit burst errors by cosmic rays	2022	Yasunari Suzuki Takanori Sugiyama Tomochika Arai Wang Liao Koji Inoue Teruo Tanimoto
+	Quantum computation with universal error mitigation on superconducting quantum processor	2018	Chao Song Jing Cui Haoyu Wang Jie Hao Hui Feng Ying Li
+ PDF Chat	On the Efficacy of Surface Codes in Compensating for Radiation Events in Superconducting Devices	2024	Marzio Vallero Gioele Casagranda Flavio Vella Paolo Rech
+ PDF Chat	Realizing Repeated Quantum Error Correction in a Distance-Three Surface Code	2021	Sebastian Krinner Nathan Lacroix Ants Remm Agustín Di Paolo Élie Genois Catherine Leroux Christoph Hellings Stefania Lazar Francois Swiadek J. Herrmann
+ PDF Chat	Demonstration of logical qubits and repeated error correction with better-than-physical error rates	2024	Marcus P. da Silva Ciarán Ryan-Anderson Juan M. Bello‐Rivas A. Chernoguzov Joan Dreiling Clémence Foltz F. Frachon John Gaebler Thomas Gatterman Linnea Grans-Samuelsson
+	Hardware optimized parity check gates for superconducting surface codes	2022	Matthew J. Reagor Thomas C. Bohdanowicz David Rodríguez Pérez Eyob A. Sete William J. Zeng
+ PDF Chat	NISQ+: Boosting quantum computing power by approximating quantum error correction	2020	Adam Holmes Mohammad Reza Jokar Ghasem Pasandi Yongshan Ding Massoud Pedram Frederic T. Chong

Works That Cite This (0)

Action	Title	Year	Authors

Works Cited by This (0)

Action	Title	Year	Authors