Spatially coupled MN/HA CSS codes achieve the quantum-erasure hashing bound under seeded BP decoding at the DE level for the X/Z equal-rate family.
Spatially-Coupled MacKay-Neal Codes and Hsu-Anastasopoulos Codes
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abstract
Kudekar et al. recently proved that for transmission over the binary erasure channel (BEC), spatial coupling of LDPC codes increases the BP threshold of the coupled ensemble to the MAP threshold of the underlying LDPC codes. One major drawback of the capacity-achieving spatially-coupled LDPC codes is that one needs to increase the column and row weight of parity-check matrices of the underlying LDPC codes. It is proved, that Hsu-Anastasopoulos (HA) codes and MacKay-Neal (MN) codes achieve the capacity of memoryless binary-input symmetric-output channels under MAP decoding with bounded column and row weight of the parity-check matrices. The HA codes and the MN codes are dual codes each other. The aim of this paper is to present an empirical evidence that spatially-coupled MN (resp. HA) codes with bounded column and row weight achieve the capacity of the BEC. To this end, we introduce a spatial coupling scheme of MN (resp. HA) codes. By density evolution analysis, we will show that the resulting spatially-coupled MN (resp. HA) codes have the BP threshold close to the Shannon limit.
fields
quant-ph 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Spatially Coupled MacKay-Neal/Hsu-Anastasopoulos CSS Codes Achieve the Quantum-Erasure Hashing Bound by Seeded BP Decoding
Spatially coupled MN/HA CSS codes achieve the quantum-erasure hashing bound under seeded BP decoding at the DE level for the X/Z equal-rate family.