Sublinear Latency for Simplified Successive Cancellation Decoding of Polar Codes

Marco Mondelli; Seyyed Ali Hashemi; John M. Cioffi; Andrea Goldsmith

doi:10.1109/TWC.2020.3022922

Sublinear Latency for Simplified Successive Cancellation Decoding of Polar Codes

Marco Mondelli
, Seyyed Ali Hashemi
, John M. Cioffi
, Andrea Goldsmith

Stony Brook University

Institute of Science and Technology Austria
Stanford University

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

This work analyzes the latency of the simplified successive cancellation (SSC) decoding scheme for polar codes proposed by Alamdar-Yazdi and Kschischang. It is shown that, unlike conventional successive cancellation decoding, where latency is linear in the block length, the latency of SSC decoding is sublinear. More specifically, the latency of SSC decoding is $O(N^{1-1/\mu })$ , where $N$ is the block length and $\mu $ is the scaling exponent of the channel, which captures the speed of convergence of the rate to capacity. Numerical results demonstrate the tightness of the bound and show that most of the latency reduction arises from the parallel decoding of subcodes of rate 0 or 1.

Original language	English
Article number	9199132
Pages (from-to)	18-27
Number of pages	10
Journal	IEEE Transactions on Wireless Communications
Volume	20
Issue number	1
DOIs	https://doi.org/10.1109/TWC.2020.3022922
State	Published - Jan 2021

Keywords

latency
Polar codes
scaling exponent
simplified successive cancellation (SSC) decoding

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10.1109/TWC.2020.3022922

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title = "Sublinear Latency for Simplified Successive Cancellation Decoding of Polar Codes",

abstract = "This work analyzes the latency of the simplified successive cancellation (SSC) decoding scheme for polar codes proposed by Alamdar-Yazdi and Kschischang. It is shown that, unlike conventional successive cancellation decoding, where latency is linear in the block length, the latency of SSC decoding is sublinear. More specifically, the latency of SSC decoding is \$O(N\textasciicircum{}\{1-1/\textbackslash{}mu \})\$ , where \$N\$ is the block length and \$\textbackslash{}mu \$ is the scaling exponent of the channel, which captures the speed of convergence of the rate to capacity. Numerical results demonstrate the tightness of the bound and show that most of the latency reduction arises from the parallel decoding of subcodes of rate 0 or 1.",

keywords = "latency, Polar codes, scaling exponent, simplified successive cancellation (SSC) decoding",

author = "Marco Mondelli and Hashemi, \{Seyyed Ali\} and Cioffi, \{John M.\} and Andrea Goldsmith",

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AU - Hashemi, Seyyed Ali

AU - Cioffi, John M.

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PY - 2021/1

Y1 - 2021/1

N2 - This work analyzes the latency of the simplified successive cancellation (SSC) decoding scheme for polar codes proposed by Alamdar-Yazdi and Kschischang. It is shown that, unlike conventional successive cancellation decoding, where latency is linear in the block length, the latency of SSC decoding is sublinear. More specifically, the latency of SSC decoding is $O(N^{1-1/\mu })$ , where $N$ is the block length and $\mu $ is the scaling exponent of the channel, which captures the speed of convergence of the rate to capacity. Numerical results demonstrate the tightness of the bound and show that most of the latency reduction arises from the parallel decoding of subcodes of rate 0 or 1.

AB - This work analyzes the latency of the simplified successive cancellation (SSC) decoding scheme for polar codes proposed by Alamdar-Yazdi and Kschischang. It is shown that, unlike conventional successive cancellation decoding, where latency is linear in the block length, the latency of SSC decoding is sublinear. More specifically, the latency of SSC decoding is $O(N^{1-1/\mu })$ , where $N$ is the block length and $\mu $ is the scaling exponent of the channel, which captures the speed of convergence of the rate to capacity. Numerical results demonstrate the tightness of the bound and show that most of the latency reduction arises from the parallel decoding of subcodes of rate 0 or 1.

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KW - Polar codes

KW - scaling exponent

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Sublinear Latency for Simplified Successive Cancellation Decoding of Polar Codes

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Keywords

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