一种高速并行时序恢复算法及其FPGA实现

2011 2nd International Symposium on Intelligence Information Processing and Trusted Computing Pub Date : 2011-10-01 DOI:10.1109/IPTC.2011.23

Changxing Lin, Jian Zhang, B. Shao

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引用次数: 16

摘要

本文提出了一种适用于超高速解调器且易于在FPGA平台上实现的高效并行符号时序恢复算法。所提出的时序恢复算法具有双反馈结构，该结构由频域时序相位校正和基于并行fifo的删除-保持算法组成。在时序误差检测器中，我们采用了O\&M算法。我们还研究了适合FPGA平台的高速并行实现结构。不动点仿真结果表明，所提算法能有效地工作，性能损失小于0.5dB。该算法在Xilinx XC6VLX240T FPGA芯片上实现，最高运行频率达到188 MHz。因此，当每个符号使用4个样本时，它维持1.5 Gsps的符号速率。

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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A High Speed Parallel Timing Recovery Algorithm and Its FPGA Implementation

The paper presents an efficient and parallel symbol timing recovery algorithm suitable for very high speed demodulator and easy to implement on FPGA platform. The proposed timing recovery algorithm has a dual feedback structure which makes up of frequency domain timing phase correction, first reported in Alternate Parallel Receiver (APRX), and parallel FIFOs based delete-keep algorithm. In the timing error detector, we adopt the O\&M algorithm. We also investigate their high speed parallel implementation structures suitable for FPGA platform. The fixed point simulation shows that our proposed algorithm can work efficiently with performance loss less than 0.5dB. Besides, the algorithm is implemented with a Xilinx XC6VLX240T FPGA chip, and reaches the maximum running frequency of 188 MHz. Thus, it sustains a symbol rate of 1.5 Gsps when 4 samples per symbol are employed.

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2011 2nd International Symposium on Intelligence Information Processing and Trusted Computing

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