English

Efficient Decoders for Qudit Topological Codes

Quantum Physics 2014-06-19 v1

Abstract

Qudit toric codes are a natural higher-dimensional generalization of the well-studied qubit toric code. However standard methods for error correction of the qubit toric code are not applicable to them. Novel decoders are needed. In this paper we introduce two renormalization group decoders for qudit codes and analyze their error correction thresholds and efficiency. The first decoder is a generalization of a "hard-decisions" decoder due to Bravyi and Haah [arXiv:1112.3252]. We modify this decoder to overcome a percolation effect which limits its threshold performance for high dimensions. The second decoder is a generalization of a "soft-decisions" decoder due to Poulin and Duclos-Cianci [Phys. Rev. Lett. 104, 050504 (2010)], with a small cell size to optimize the efficiency of implementation in the high dimensional case. In each case, we estimate thresholds for the uncorrelated bit-flip error model and provide a comparative analysis of the performance of both these approaches to error correction of qudit toric codes.

Keywords

Cite

@article{arxiv.1311.4895,
  title  = {Efficient Decoders for Qudit Topological Codes},
  author = {Hussain Anwar and Benjamin J. Brown and Earl T. Campbell and Dan E. Browne},
  journal= {arXiv preprint arXiv:1311.4895},
  year   = {2014}
}

Comments

20 pages, 21 figures, comments are welcome

R2 v1 2026-06-22T02:10:49.631Z