Learned Decimation for Neural Belief Propagation Decoders
Publication
, Journal Article
Buchberger, A; Häger, C; Pfister, HD; Schmalen, L; Amat, AGI
November 4, 2020
We introduce a two-stage decimation process to improve the performance of neural belief propagation (NBP), recently introduced by Nachmani et al., for short low-density parity-check (LDPC) codes. In the first stage, we build a list by iterating between a conventional NBP decoder and guessing the least reliable bit. The second stage iterates between a conventional NBP decoder and learned decimation, where we use a neural network to decide the decimation value for each bit. For a (128,64) LDPC code, the proposed NBP with decimation outperforms NBP decoding by 0.75 dB and performs within 1 dB from maximum-likelihood decoding at a block error rate of $10^{-4}$.
Duke Scholars
Publication Date
November 4, 2020
Citation
APA
Chicago
ICMJE
MLA
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Buchberger, A., Häger, C., Pfister, H. D., Schmalen, L., & Amat, A. G. I. (2020). Learned Decimation for Neural Belief Propagation Decoders.
Buchberger, Andreas, Christian Häger, Henry D. Pfister, Laurent Schmalen, and Alexandre Graell I. Amat. “Learned Decimation for Neural Belief Propagation Decoders,” November 4, 2020.
Buchberger A, Häger C, Pfister HD, Schmalen L, Amat AGI. Learned Decimation for Neural Belief Propagation Decoders. 2020 Nov 4;
Buchberger, Andreas, et al. Learned Decimation for Neural Belief Propagation Decoders. Nov. 2020.
Buchberger A, Häger C, Pfister HD, Schmalen L, Amat AGI. Learned Decimation for Neural Belief Propagation Decoders. 2020 Nov 4;
Publication Date
November 4, 2020