Yixuan Xie, Jun Li, Robert Malaney, Jinhong Yuan
The importance of the channel mismatch effect in determining the performance of quantum low-density parity-check codes has very recently been pointed out. It was found that an order of magnitude degradation in the qubit error performance was found even if optimal information on the channel identification was assumed. However, although such previous studies indicated the level of degradation in performance, no alternate decoding strategies had been proposed in order to reduce the degradation. In this work we fill this gap by proposing new decoding strategies that can significantly reduce the qubit error performance degradation by as much as 50%. Our new strategies for the quantum LDPC decoder are based on previous insights from classical LDPC decoders in mismatched wireless channels, where an asymmetry in performance is known as a function of the estimated bit-flip probability. We show how similar asymmetries carry over to the quantum depolarizing channel, and show with that when a weighted estimate of the depolarization coherence parameter to larger values is assumed we find significant performance improvement.
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http://arxiv.org/abs/1204.4223
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