English

Decay of Correlations for Sparse Graph Error Correcting Codes

Information Theory 2009-03-12 v1 math.IT

Abstract

The subject of this paper is transmission over a general class of binary-input memoryless symmetric channels using error correcting codes based on sparse graphs, namely low-density generator-matrix and low-density parity-check codes. The optimal (or ideal) decoder based on the posterior measure over the code bits, and its relationship to the sub-optimal belief propagation decoder, are investigated. We consider the correlation (or covariance) between two codebits, averaged over the noise realizations, as a function of the graph distance, for the optimal decoder. Our main result is that this correlation decays exponentially fast for fixed general low-density generator-matrix codes and high enough noise parameter, and also for fixed general low-density parity-check codes and low enough noise parameter. This has many consequences. Appropriate performance curves - called GEXIT functions - of the belief propagation and optimal decoders match in high/low noise regimes. This means that in high/low noise regimes the performance curves of the optimal decoder can be computed by density evolution. Another interpretation is that the replica predictions of spin-glass theory are exact. Our methods are rather general and use cluster expansions first developed in the context of mathematical statistical mechanics.

Keywords

Cite

@article{arxiv.0903.1842,
  title  = {Decay of Correlations for Sparse Graph Error Correcting Codes},
  author = {Shrinivas Kudekar and Nicolas Macris},
  journal= {arXiv preprint arXiv:0903.1842},
  year   = {2009}
}

Comments

40 pages, Submitted to SIAM Journal of Discrete Mathematics

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