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 Universally Achieve the Symmetric Information Rate of Arbitrary Generalized Erasure Channels with Memory
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abstract
This paper investigates the belief propagation decoding of spatially-coupled MacKay-Neal (SC-MN) codes over erasure channels with memory. We show that SC-MN codes with bounded degree universally achieve the symmetric information rate (SIR) of arbitrary erasure channels with memory. We mean by universality the following sense: the sender does not need to know the whole channel statistics but needs to know only the SIR, while the receiver estimates the transmitted codewords from channel statistics and received words. The proof is based on potential function.
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.