English

Fast polar codes for terabits-per-second throughput communications

Information Theory 2021-07-20 v1 Hardware Architecture math.IT

Abstract

Targeting high-throughput and low-power communications, we implement two successive cancellation (SC) decoders for polar codes. With 16nm16nm ASIC technology, the area efficiency and energy efficiency are 4Tbps/mm24Tbps/mm^2 and 0.63pJ/bit0.63pJ/bit, respectively, for the unrolled decoder, and 561Gbps/mm2561Gbps/mm^2 and 1.21pJ/bit1.21pJ/bit, respectively, for the recursive decoder. To achieve such a high throughput, a novel code construction, coined as fast polar codes, is proposed and jointly optimized with a highly-parallel SC decoding architecture. First, we reuse existing modules to fast decode more outer code blocks, and then modify code construction to facilitate faster decoding for all outer code blocks up to a degree of parallelism of 1616. Furthermore, parallel comparison circuits and bit quantization schemes are customized for hardware implementation. Collectively, they contribute to an 2.66×2.66\times area efficiency improvement and 33%33\% energy saving over the state of the art.

Keywords

Cite

@article{arxiv.2107.08600,
  title  = {Fast polar codes for terabits-per-second throughput communications},
  author = {Jiajie Tong and Xianbin Wang and Qifan Zhang and Huazi Zhang and Rong Li and Jun Wang and Wen Tong},
  journal= {arXiv preprint arXiv:2107.08600},
  year   = {2021}
}

Comments

8 pages, 5 figures. Part of this paper was presented in an invited talk at the 2021 International Symposium on Information Theory (ISIT)

R2 v1 2026-06-24T04:18:26.220Z