UP-GDBF:用于NAND闪存应用的19.3 Gbps无错误层4KB LDPC解码器

IF 2.4 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE open journal of circuits and systems Pub Date : 2022-09-26 DOI:10.1109/OJCAS.2022.3209152

Li-Wei Liu;Yen-Chin Liao;Hsie-Chia Chang

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引用次数: 1

摘要

错误层现象、解码性能和吞吐量是NAND闪存应用中LDPC解码器的三个主要关注点。采用惩罚方法和主动迭代机制，提出了一种统一惩罚梯度下降位翻转(UP-GDBF)译码算法，该算法不仅具有无错层的特性，而且提高了译码性能的收敛速度。为了满足高吞吐量需求，同时保持可靠的纠错能力，我们提出了一种基于能量的回溯方案，以微不足道的0.8%的面积开销减少40%的延迟。采用台积电16nm制程实现的4KB LDPC解码器，在0.120 mm2的面积上实现19.3 Gbps的吞吐量，满足ONFI 5.0吞吐量要求。与现有方法相比，我们的解码器架构在1KB和4KB LDPC码中都提供了更高的数据速率和解码性能。

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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UP-GDBF: A 19.3 Gbps Error Floor Free 4KB LDPC Decoder for NAND Flash Applications

An error floor phenomenon, decoding performance, and throughput are three major concerns for LDPC decoders in NAND Flash applications. With a penalty method and an active iteration mechanism, we present a Unified Penalty Gradient Descent Bit Flipping (UP-GDBF) decoding algorithm, which not only possesses error-floor free property but also improves convergence speed in decoding performance. To fulfill the high-throughput requirement while maintaining reliable error correction capability, we propose an energy-based backtracking scheme to reduce 40% latency with a negligible 0.8% area overhead. Implemented in TSMC 16nm process, the proposed 4KB LDPC decoder can achieve a throughput of 19.3 Gbps with 0.120 mm2 area to satisfy ONFI 5.0 throughput requirement. Compared to existing approaches, our decoder architecture provides superior data rate and decoding performance in both 1KB and 4KB LDPC codes.

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IEEE open journal of circuits and systems

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审稿时长

19 weeks