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Design of Quantum error correcting code for biased error on heavy-hexagon structure

Quantum Physics 2022-11-28 v1

Abstract

Surface code is an error-correcting method that can be applied to the implementation of a usable quantum computer. At present, a promising candidate for a usable quantum computer is based on superconductor-specifically transmon. Because errors in transmon-based quantum computers appear biasedly as Z type errors, tailored surface and XZZX codes have been developed to deal with the type errors. Even though these surface codes have been suggested for lattice structures, since transmons-based quantum computers, developed by IBM, have a heavy-hexagon structure, it is natural to ask how tailored surface code and XZZX code can be implemented on the heavy-hexagon structure. In this study, we provide a method for implementing tailored surface code and XZZX code on a heavy-hexagon structure. Even when there is no bias, we obtain 0.231779% 0.231779 \% as the threshold of the tailored surface code, which is much better than 0.210064% 0.210064 \% and 0.209214% 0.209214 \% as the thresholds of the surface code and XZZX code, respectively. Furthermore, we can see that even though a decoder, which is not the best of the syndromes, is used, the thresholds of the tailored surface code and XZZX code increase as the bias of the Z error increases. Finally, we show that in the case of infinite bias, the threshold of the surface code is 0.264852% 0.264852\%, but the thresholds of the tailored surface code and XZZX code are 0.296157% 0.296157 \% and 0.328127% 0.328127 \% respectively.

Keywords

Cite

@article{arxiv.2211.14038,
  title  = {Design of Quantum error correcting code for biased error on heavy-hexagon structure},
  author = {Younghun Kim and Jeongsoo Kang and Younghun Kwon},
  journal= {arXiv preprint arXiv:2211.14038},
  year   = {2022}
}
R2 v1 2026-06-28T07:12:33.874Z