English

Demonstration of low-overhead quantum error correction codes

Quantum Physics 2026-01-27 v1

Abstract

Quantum computers hold the potential to surpass classical computers in solving complex computational problems. However, the fragility of quantum information and the error-prone nature of quantum operations make building large-scale, fault-tolerant quantum computers a prominent challenge. To combat errors, pioneering experiments have demonstrated a variety of quantum error correction codes. Yet, most of these codes suffer from low encoding efficiency, and their scalability is hindered by prohibitively high resource overheads. Here, we report the demonstration of two low-overhead quantum low-density parity-check (qLDPC) codes, a distance-4 bivariate bicycle code and a distance-3 qLDPC code, on our latest superconducting processor, Kunlun, featuring 32 long-range-coupled transmon qubits. Utilizing a two-dimensional architecture with overlapping long-range couplers, we demonstrate simultaneous measurements of all nonlocal weight-6 stabilizers via the periodic execution of an efficient syndrome extraction circuit. We achieve a logical error rate per logical qubit per cycle of (8.91±0.17)%(8.91 \pm 0.17)\% for the distance-4 bivariate bicycle code with four logical qubits and (7.77±0.12)%(7.77 \pm 0.12)\% for the distance-3 qLDPC code with six logical qubits. Our results establish the feasibility of implementing various qLDPC codes with long-range coupled superconducting processors, marking a crucial step towards large-scale low-overhead quantum error correction.

Keywords

Cite

@article{arxiv.2505.09684,
  title  = {Demonstration of low-overhead quantum error correction codes},
  author = {Ke Wang and Zhide Lu and Chuanyu Zhang and Gongyu Liu and Jiachen Chen and Yanzhe Wang and Yaozu Wu and Shibo Xu and Xuhao Zhu and Feitong Jin and Yu Gao and Ziqi Tan and Zhengyi Cui and Ning Wang and Yiren Zou and Aosai Zhang and Tingting Li and Fanhao Shen and Jiarun Zhong and Zehang Bao and Zitian Zhu and Yihang Han and Yiyang He and Jiayuan Shen and Han Wang and Jia-Nan Yang and Zixuan Song and Jinfeng Deng and Hang Dong and Zheng-Zhi Sun and Weikang Li and Qi Ye and Si Jiang and Yixuan Ma and Pei-Xin Shen and Pengfei Zhang and Hekang Li and Qiujiang Guo and Zhen Wang and Chao Song and H. Wang and Dong-Ling Deng},
  journal= {arXiv preprint arXiv:2505.09684},
  year   = {2026}
}
R2 v1 2026-06-28T23:33:32.686Z