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Efficient Algorithms for Maximum Likelihood Decoding in the Surface Code

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arxiv 1405.4883 v1 pith:HRE62DXC submitted 2014-05-19 quant-ph

Efficient Algorithms for Maximum Likelihood Decoding in the Surface Code

classification quant-ph
keywords codedecoderreductionalgorithmerrorimplementimplementationlikelihood
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We describe two implementations of the optimal error correction algorithm known as the maximum likelihood decoder (MLD) for the 2D surface code with a noiseless syndrome extraction. First, we show how to implement MLD exactly in time $O(n^2)$, where $n$ is the number of code qubits. Our implementation uses a reduction from MLD to simulation of matchgate quantum circuits. This reduction however requires a special noise model with independent bit-flip and phase-flip errors. Secondly, we show how to implement MLD approximately for more general noise models using matrix product states (MPS). Our implementation has running time $O(n\chi^3)$ where $\chi$ is a parameter that controls the approximation precision. The key step of our algorithm, borrowed from the DMRG method, is a subroutine for contracting a tensor network on the two-dimensional grid. The subroutine uses MPS with a bond dimension $\chi$ to approximate the sequence of tensors arising in the course of contraction. We benchmark the MPS-based decoder against the standard minimum weight matching decoder observing a significant reduction of the logical error probability for $\chi\ge 4$.

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Cited by 2 Pith papers

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    The Frontier decoder approximates optimal quantum LDPC decoding via narrow-frontier dynamic programming, achieving near-optimal thresholds for surface and color codes plus state-of-the-art circuit-level performance wi...

  2. Improved Logical Error Rate via List Decoding of Quantum Polar Codes

    quant-ph 2023-04 unverdicted novelty 6.0

    List decoding of entanglement-free quantum polar codes yields logical error rates competitive with surface codes and LDPC codes of similar size, with class-probability approximation providing further improvement.