一种减少内存和支持灵活码率的快速极性码解码器的实现

IEICE Electron. Express Pub Date : 2022-01-01 DOI:10.1587/elex.18.20210503

Ping Luo, W. Guan, Liping Liang, Xin Qiu

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摘要

本文提出了一种支持任意码率的快速简化连续抵消(FSSC)极化解码器架构。以特殊极点节点的最大极限长度为参数M，提出了一种新的极点码特殊节点在线识别方案。此外，在参数M下，由于采用跨层计算所需的内存较少，无需管道技术的特殊节点所需的硬件资源较少，所提出的解码器具有较好的结构优化，从而减少了面积、功耗和能耗。基于台积电65nm CMOS技术的综合和布局后仿真结果表明，硬件资源消耗降低了25%。结构和电路技术将功率降低到54.9mW，能源效率为77.22 pJ/b。

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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An implementation of fast polar codes decoder with reducing internal memory and supporting flexible code rate

This letter proposes a fast simpliﬁed successive-cancellation (FSSC) polar decoder architecture, supporting any code rate. With the parameter M , which is the maximum limit length of a special polar node, the authors present a novel scheme for online identiﬁcation of special node in a polar code. In addition, under the parameter M , the proposed decoder has a well optimized architecture to reduce area, power and energy consumption, that due to require less internal memory using cross-layer calculation and less hardware resources for special node without pipeline technology. Synthesis and post-layout simulate results, based in TSMC 65nm CMOS technology, show that the consumption of hardware resources is reduced by 25%. The architecture and circuit techniques reduce the power to 54.9mW for an energy eﬃciency of 77.22 pJ/b.

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IEICE Electron. Express

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