基于FPGA的软件无线电中VHDL语言的高性能多相FIR滤波器结构

2014 International Conference on Applied Electronics Pub Date : 2014-09-01 DOI:10.1109/AE.2014.7011674

P. Fiala, R. Linhart

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引用次数: 12

摘要

数字滤波器在数字发送/接收端是必要的，软件定义无线电(SDR)的普及迫使复杂的数字信号处理模块在FPGA或ASIC上并行设计。本文的目标是用VHDL语言开发高效的流水线式多相FIR滤波器结构，用于FPGA上的RTL合成。所提出的结构包含完全并行的多相抽取和插值FIR滤波器模型。本文的第一部分重点研究了多相分解的分布式算法技术，这是所设计模型的核心。第二部分描述了上述多相FIR VHDL模型。广泛的重点将放在高效的流水线实现，具有优异的注册性能和最佳的设计尺寸平衡。本文的第三部分讨论了VHDL模型的快速设计和仿真。最后讨论了RTL合成的结果。良好的性能和最佳的设计尺寸是所提出的多相FIR滤波器的主要优点。所开发的结构非常适合数字I/Q接收机的多通道工作。

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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High performance polyphase FIR filter structures in VHDL language for Software Defined Radio based on FPGA

Digital filters are necessary in digital transmitter / receiver side and popularity of Software Defined Radio (SDR) is forcing complex digital signal processing blocks to be implemented in parallel design flow on FPGA or ASIC. The goal of this paper is to develop efficient pipelined polyphase FIR filter structures in VHDL language for RTL synthesis on FPGA. The proposed structures contain fully parallel polyphase decimation and interpolation FIR filter models. The first part of this paper is focused on formulation of distributed arithmetic technique with polyphase decomposition, which represents the core of designed models. The second part describes mentioned polyphase FIR VHDL models. The extensive emphasis will be put on efficient pipelined implementation with excellent registered performance and optimal design size balance. The third part of this paper deals with rapid design and simulation of proposed VHDL models. The result of RTL synthesis is finally discussed. Very good performance and optimal design size are main benefits of proposed polyphase FIR filters. Developed structures are very suitable for multichannel operation in digital I/Q receiver.

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2014 International Conference on Applied Electronics

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