低功耗、面积高效的连续对消解码器结构

IF 0.4 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC EMITTER-International Journal of Engineering Technology Pub Date : 2022-06-20 DOI:10.24003/emitter.v10i1.650

Sujanth Roy J, G Lakshminarayanan

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引用次数: 0

摘要

Polar码最近作为一种纠错码出现，由于其能力实现的性质而变得流行。基于极化码的通信系统主要由极化编码器和极化解码器两部分组成。逐次消去解码器是译码过程中使用的方法之一。连续对消解码器是一个递归结构，由称为处理元素的构建块构建。本文提出了一种低功耗、高效率的极化码连续对消解码器结构。采用Verilog HDL语言设计了码长1024、码率0.5的连续对消解码器，并采用45纳米CMOS技术实现。提出的工作重点是通过提出一个新的处理元素体系结构来开发一个面积高效的连续对消解码器体系结构。拟议的架构减少了约35%的面积，减少了12%的门数。此外，功耗也降低了50%。观察到延迟的大幅减少和技术缩放标准化吞吐量值的改进。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Low Power, Area Efficient Architecture for Successive Cancellation Decoder

Polar codes have recently emerged as an error-correcting code and have become popular owing to their capacity-achieving nature. Polar code based communication system primarily consists of two parts, including Polar Encoder and Decoder. Successive Cancellation Decoder is one of the methods used in the decoding process. The Successive Cancellation Decoder is a recursive structure built with the building block called Processing Element. This article proposes a low power, area-efficient architecture for the Successive Cancellation Decoder for polar codes. Successive Cancellation Decoder with code length 1024 and code rate 0.5 was designed in Verilog HDL and implemented using 45-nm CMOS technology. The proposed work focuses on developing an area-efficient Successive Cancellation Decoder architecture by presenting a new Processing Element architecture. The proposed architecture has produced about 35% lesser area with a 12% reduced gate count. Moreover, power is also reduced by 50%. A substantial reduction in the latency and improvement in the Technology Scaled Normalized Throughput value was observed.

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来源期刊

EMITTER-International Journal of Engineering Technology ENGINEERING, ELECTRICAL & ELECTRONIC-

自引率

0.00%

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审稿时长

12 weeks