IEEE Trans. Commun.
 2021
DOI: 10.1109/tcomm.2020.3039856
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Noisy Density Evolution With Asymmetric Deviation Models

Elsa Dupraz1,
François Leduc-Primeau2

Abstract: This paper considers low-density parity-check (LDPC) decoders affected by deviations introduced by the electronic device on which the decoder is implemented. Noisy density evolution (DE) that allows to theoretically study the performance of these LDPC decoders can only consider symmetric deviation models due to the all-zero codeword assumption. A novel DE method is proposed that admits the use of asymmetric deviation models, thus widening the range of faulty implementations that can be analyzed. DE equations a… Show more

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Cited by 2 publications
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“…However, the observed channel error rate can be modeled as a Gaussian random variable [14]. As shown in [13], [15], this model provides a good match to Monte-Carlo simulations in the waterfall region for moderately large code lengths.…”
Section: B Density Evolutionmentioning
confidence: 93%

Towards an Accurate High-Level Energy Model for LDPC Decoders

Nadal
1
,
Brown
2
,
Dupraz
3
et al. 2021
2021 11th International Symposium on Topics in Coding (ISTC)
Self Cite
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0
0
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“…However, the observed channel error rate can be modeled as a Gaussian random variable [14]. As shown in [13], [15], this model provides a good match to Monte-Carlo simulations in the waterfall region for moderately large code lengths.…”
Section: B Density Evolutionmentioning
confidence: 93%

Towards an Accurate High-Level Energy Model for LDPC Decoders

Nadal
1
,
Brown
2
,
Dupraz
3
et al. 2021
2021 11th International Symposium on Topics in Coding (ISTC)
Self Cite
1
0
0
0
View full textAdd to dashboardCite

Discrete density evolution and LDPC codes designwith asymmetric channels

Yuan1,
Ma2,
Pang3
et al. 2023
Sci. Sin.-Inf.
0
0
0
0
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