用于任意QC-LDPC奇偶校验矩阵的实时可编程LDPC解码器芯片

2009 IEEE Asian Solid-State Circuits Conference Pub Date : 2009-12-22 DOI:10.1109/ASSCC.2009.5357173

Xin-Yu Shih, Cheng-Zhou Zhan, A. Wu

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引用次数: 13

摘要

针对下一代信道自适应通信系统的应用，提出了一种实时可编程LDPC解码器结构，采用分组比较(DGC)、自适应字长分配(AWA)和高效提前终止方案(EETS)三种设计技术。通过利用可编程原理，硬件架构可以支持任意的准循环LDPC奇偶校验矩阵，包括1的不同位置、信息位、码字长度和码率。原型LDPC解码器芯片采用0.13um CMOS技术，支持高达23码率，最大块尺寸为1536位，仅占用4.94 mm2的芯片面积，工作频率为125 MHz，功耗为58 mW。

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A real-time programmable LDPC decoder chip for arbitrary QC-LDPC parity check matrices

For the applications of next-generation channel-adaptive communication systems, a real-time programmable LDPC decoder architecture is proposed with three design techniques: divided-group comparison (DGC), adaptive wordlength assignment (AWA), and efficient early termination scheme (EETS). By utilizing programmable principle, the hardware architecture can support arbitrary Quasi-Cyclic LDPC parity check matrices, including various locations of 1's, information bits, codeword lengths, and code rates. The prototyping LDPC decoder chip using 0.13um CMOS technology, which supports up to 23 code rates with a maximum block size of 1536 bits, only occupies 4.94 mm2 die area, operates at 125 MHz, and dissipates 58 mW power.

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2009 IEEE Asian Solid-State Circuits Conference

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