A 38.64-Gb/s Large-CPM 2-KB LDPC Decoder Implementation for nand Flash Memories

IF 2.4 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE open journal of circuits and systems Pub Date : 2022-09-01 DOI:10.1109/OJCAS.2022.3203849
Li-Wei Liu;Mu-Hua Yuan;Yen-Chin Liao;Hsie-Chia Chang
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Abstract

The routing congestion over a QC-LDPC decoder with a large circular permutation matrix (CPM) size has long been an obstacle to high throughput designs. This paper presents a large-CPM congestion-free decoder for (18396, 16416) quasi-cyclic Euclidean geometry low-density parity-check (QC-EG-LDPC) code in NAND flash application. Considering area efficiency in scheduling schemes and the array dispersion structure, the Array-Disperse Based Dual Variable Node Unit (VNU) Cluster Architecture fully leverages the code structure to support at least two physical channels of the Open NAND Flash Interface 5.0 (ONFI 5.0). In addition, the proposed congestion-aware analysis and implementation method achieve a highly parallel decoder at a 70% utilization ratio. Implemented in TSMC 28nm process, the presented decoder provides 38.64 Gbps throughput at RBER=1.456% Bi-AWGN channel with an area of 2.97 mm2.
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用于nand闪存的38.64 gb /s大cpm 2kb LDPC解码器实现
具有大圆排列矩阵(CPM)尺寸的QC-LDPC解码器的路由拥塞一直是高吞吐量设计的障碍。本文提出了一种用于NAND闪存(18396,16416)准循环欧氏几何低密度奇偶校验(qc - egl - ldpc)码的大cpm无拥塞解码器。考虑到调度方案的面积效率和阵列分散结构,基于阵列分散的双变量节点单元(VNU)集群架构充分利用代码结构来支持至少两个开放NAND闪存接口5.0 (ONFI 5.0)的物理通道。此外,本文提出的拥塞感知分析和实现方法实现了一个利用率为70%的高度并行解码器。该解码器采用台积电28nm制程,在RBER=1.456%的Bi-AWGN信道下提供38.64 Gbps的吞吐量,信道面积为2.97 mm2。
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