适用于 CCSDS 标准的灵活高效 LDPC 编码器架构

Jing Kang, Junshe An, Yan Zhu
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引用次数: 0

摘要

空间数据系统协商委员会(CCSDS)采用准循环低密度奇偶校验(QC-LDPC)编码,用于近地(C2)和深空(AR4JA)通信。然而,现有的 C2 编码器架构在高吞吐量应用方面效率不高。本文介绍了一种结合算法和架构优化的综合方法,以提高硬件使用效率(HUE),同时提供灵活性。我们提出了一种集成的块间和块内并行(IIB-IBP)编码算法,利用独特的矩阵结构显著提高性能。此外,我们还开发了矩阵专用指令寄存器预处理(MSCRP)技术,以有效处理生成器矩阵的特殊尺寸。此外,我们还详细介绍了用于自动生成编码器内核 HDL 描述的离线设计流程,便于对编码并行性、延迟、FPGA 资源利用率和总体吞吐量进行微调。在 Virtex XC5VLX110T FPGA 上的硬件实现表明,我们的编码器仅用 2531 个 LUT 和 1040 个 FF 就达到了 10.6 Gb/s 的惊人吞吐量,实现了 2.97 Mbps/逻辑单元的 HUE。与最先进的设计相比,这一性能标志着 HUE 提高了 70.6%。
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Flexible and High-Efficiency LDPC Encoder Architecture for CCSDS Standard
The Consultative Committee for Space Data Systems (CCSDS) has adopted quasi-cyclic low-density parity-check (QC-LDPC) codes for use in near-Earth (C2) and deep space (AR4JA) communications. Existing encoder architectures for C2 codes, however, fall short in efficiency for high-throughput applications. This paper introduces a comprehensive approach combining algorithmic and architectural optimizations to enhance hardware usage efficiency (HUE) while offering flexibility. We propose an integrated inter-block and intra-block parallel (IIB-IBP) encoding algorithm that leverages the unique matrix structure to significantly enhance performance. Additionally, a matrix-specific command register pretreatment (MSCRP) technique is developed to effectively handle the special dimensions of the generator matrix. Furthermore, we detail an offline design process for the automated generation of the encoder core’s HDL description, facilitating fine-tuning of encoding parallelism, latency, FPGA resource utilization, and overall throughput. Hardware implementation on a Virtex XC5VLX110T FPGA demonstrates that our encoder reaches an impressive throughput of 10.6 Gb/s with only 2531 LUTs and 1040 FFs, achieving a HUE of 2.97 Mbps/logic unit. This performance marks a 70.6% increase in HUE when compared to state-of-the-art designs.
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