FFT Radix-2 and Radix-4 FPGA Acceleration Techniques Using HLS and HDL for Digital Communication Systems

机译：使用HLS和HDL的FFT Radix-2和Radix-4 FPGA加速技术用于数字通信系统

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Fast Fourier Transform (FFT) is generally implemented on reconfigurable hardware in several signal processing or digital communication applications. It can be considered the most time and resource consuming operations due to the need of complex operations. The main of this manuscript is to investigate the contribution of High Level Synthesis (HLS) techniques on the implementation of real time FFT algorithms using field programmable gate arrays (FPGAs). In particular, this study focuses on communication systems incorporating filter-based-multicarrier modulations (FBMC), a promising candidate for the 5G technology. In order to evaluate the contribution of HLS, we implemented and tested various combinations such as: 8 and 16 points radix-2 and radix-4 FFT using finite precision, HLS tools and HDL while prompting parallelization, pipelining and hardware reuse architectures.

机译：快速傅立叶变换（FFT）通常在几种信号处理或数字通信应用中的可重配置硬件上实现。由于需要复杂的操作，因此可以将其视为最耗时和最耗资源的操作。本手稿的主要内容是研究高级综合（HLS）技术对使用现场可编程门阵列（FPGA）实施实时FFT算法的贡献。尤其是，这项研究的重点是结合了基于滤波器的多载波调制（FBMC）的通信系统，这是5G技术的有希望的候选者。为了评估HLS的贡献，我们使用有限精度，HLS工具和HDL实施并测试了多种组合，例如：8点和16点基数2和基数4 FFT，同时提示了并行化，流水线和硬件重用架构。

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《IEEE International Multidisciplinary Conference on Engineering Technology》|2018年|1-5|共5页
会议地点 Beirut(LB)
作者
Ghattas Akkad; Ali Mansour; Bachar ElHassan; Frederic Le Roy; Mohamad Najem;
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1Lab-STICC CNRS UMR 6285 ENSTA Bretagne Brest France;

Department of Electrical Engineering Lebanese University Tripoli Lebanon;

CCE;

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Field programmable gate arrays; Hardware design languages; Hardware; Delays; Pipeline processing; Pipelines; Cyclones;

机译：现场可编程门阵列；硬件设计语言；硬件;延误；管道加工；管道；旋风分离器;

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1. The 128 Point New Mixed Radix-2 and Radix-4 Pipeline Combined SDF-MDC FFT/IFFT Processor For MIMO-OFDM Transceiver [J] . N. Devi Vasumathy, T. Vigneswaran International Journal of Applied Engineering Research . 2016,第6aPta8期

机译：用于MIMO-OFDM收发器的128点新型混合Radix-2和Radix-4管道组合SDF-MDC FFT / IFFT处理器
2. Design and Implementation of 256-Point Radix-4 100 Gbit/s FFT Algorithm into FPGA for High-Speed Applications [J] . Polat Gokhan, Ozturk Sitki, Yakut Mehmet ETRI journal . 2015,第4期

机译：高速应用中FPGA的256点Radix-4 100 Gbit / s FFT算法的设计与实现
3. Design and Implementation of 256-Point Radix-4 100 Gbit/s FFT Algorithm into FPGA for High-Speed Applications [J] . Gokhan Polat, Sitki Ozturk, Mehmet Yakut ETRI journal . 2015,第4期

机译：高速应用中256点Radix-4 100 Gbit / s FFT算法在FPGA中的设计与实现
4. FFT Radix-2 and Radix-4 FPGA Acceleration Techniques Using HLS and HDL for Digital Communication Systems [C] . Ghattas Akkad, Ali Mansour, Bachar ElHassan, IEEE International Multidisciplinary Conference on Engineering Technology . 2018

机译：使用HLS和HDL进行数字通信系统的FFT基径-2和RADIX-4 FPGA加速技术
5. Experimental demonstration of techniques to improve system performance in non-static microwave frequency analog and digital signal transmission over fiber-optic communication systems. [D] . Sahin, Asaf. 2003

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6. Fault Injection Emulation for Systems in FPGAs: Tools Techniques and Methodology a Tutorial [O] . Óscar Ruano, Francisco García-Herrero, Luis Alberto Aranda, 2021

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7. Design and Simulation of FFT Processor Using Radix-4 Algorithm Using FPGA [O] . N. Amarnath Reddy, D. Srinivasa Rao, J. Venkata Suman 2015

机译：基于FpGa的Radix-4算法设计与仿真FFT处理器

FFT Radix-2 and Radix-4 FPGA Acceleration Techniques Using HLS and HDL for Digital Communication Systems

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