Facilitating practical fault-tolerant quantum computing based on color codes

Author:

Zhang Jiaxuan1222ORCID,Wu Yu-Chun12223,Guo Guo-Ping122234

Affiliation:

1. Chinese Academy of Sciences

2. University of Science and Technology of China

3. Hefei Comprehensive National Science Center

4. Origin Quantum Computing

Abstract

Color codes are a promising topological code for fault-tolerant quantum computing. Insufficient research on color codes has delayed their practical application. In this work, we address several key issues to facilitate practical fault-tolerant quantum computing based on color codes. First, by introducing decoding graphs with error-rate-related weights, we obtain the threshold of 0.47% of the 6.6.6 triangular color code under the standard circuit-level noise model, narrowing the gap to that of the surface code. Second, our work first investigates the circuit-level decoding of color code lattice surgery, then gives an efficient decoding algorithm, which is crucial to perform logical operations in a quantum computer with two-dimensional architectures. Last, a state injection protocol of the triangular color code is proposed, reducing the output magic state error rate in one round of 15 to 1 distillation by two orders of magnitude compared to a previous rough protocol. We also prove that our protocol offers the lowest logical error rates for state injection among all possible codes. Published by the American Physical Society 2024

Funder

National Natural Science Foundation of China

Innovation Program for Quantum Science and Technology

Publisher

American Physical Society (APS)

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