Systolic Variable Length Architecture for Discrete Fourier Transform in Long Term Evolution

机译：长期演化中离散傅里叶变换的脉动变长架构

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A novel design for the implementation of the 2^M x 3^P x 5Q point Discrete Fourier Transform (DFT) computation for Single Carrier-Frequency Division Multiple Access (SC-FDMA) systems as defined by the Long Term Evolution standard is proposed. The design is based on the Systolic Architecture. The decomposition of the DFT computation into factors of two, three, four and five is implemented by a recursive invocation of the Cooley-Tukey Algorithm, with the individual DFTs within each Cooley Tukey iteration implemented using the Winograd Fourier Transform Algorithm (WFTA). The proposed architecture is superior to the Intellectual Property (IP) cores proposed by Xilinx R in that the clock frequency requirements are reduced by a factor of up to 5.2 (approx), resulting in significant savings in the total power dissipation.

机译：提出了一种新颖的设计，用于实现由长期演进标准定义的单载波频分多址（SC-FDMA）系统的2 ^ M×3 ^ P×5Q点离散傅立叶变换（DFT）计算的设计。该设计基于收缩系统架构。 DFT计算的分解成2，三，四，五个因子是通过Cooley-Tukey算法的递归调用来实现的，每个Cooley Tukey迭代中的各个DFT使用WinoGrad傅里叶变换算法（WFTA）实现。所提出的体系结构优于Xilinx R提出的知识产权（IP）核心，因为时钟频率要求减少了高达5.2（约）的因子，导致总功耗中的显着节省。

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《International Symposium on Electronic System Design》|2012年|52-55|共4页
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Niras C.V.; Thomas Vinu;
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Discrete Fourier Transform; Field Programmable Gate Array(FPGA); Long Term Evolution (LTE); Single Carrier- Frequency Division Multiple Access (SC-FDMA); Systolic Architecture;

机译：离散傅里叶变换;现场可编程门阵列（FPGA）;长期演进（LTE）;单载波频分多址（SC-FDMA）;脉动体系结构;

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专利

1. Computationally Efficient Systolic Architecture for Computing the Discrete Fourier Transform [J] . J. Greg Nash IEEE Transactions on Signal Processing . 2005,第12期

机译：计算离散傅里叶变换的高效计算脉动体系结构
2. A discrete Fourier transform using switched capacitor circuits in systolic array architecture [J] . Raut R., Bhattacharyya B.B. IEEE Transactions on Circuits and Systems . 1990,第12期

机译：脉动阵列架构中使用开关电容器电路的离散傅里叶变换
3. A LOW-POWER PARAMETERIZED HARDWARE DESIGN FOR THE ONE-DIMENSIONAL DISCRETE FOURIER TRANSFORM OF VARIABLE LENGTHS [J] . JIUN-IN GUO, CHIEN-CHANG LIN, CHIH-DA CHIEN Journal of Circuits, Systems, and Computers . 2002,第4期

机译：变长一维离散傅里叶变换的低功率参数化硬件设计
4. Systolic Variable Length Architecture for Discrete Fourier Transform in Long Term Evolution [C] . C.V. Niras, Vinu Thomas ISED 2012 . 2012

机译：用于离散傅立叶变换的收缩变量长度架构
5. Parallel implementation and benchmarking in cluster architectures of one-dimensional discrete fourier transforms: A comparison using the row-column algorithm versus a novel formulation based on the bluestein/pseudocirculant algorithm. [D] . Velez Rodriguez, William. 2014

机译：一维离散傅里叶变换的群集体系结构中的并行实现和基准测试：使用行列算法与基于bluestein / pseudocirculant算法的新颖公式进行比较。
6. A Parallel Framework with Block Matrices of a Discrete Fourier Transform for Vector-Valued Discrete-Time Signals [O] . Pablo Soto-Quiros 2015

机译：矢量值离散时间信号的具有离散傅立叶变换的块矩阵的并行框架
7. Computing the discrete fourier transform on FPGA based systolic arrays [O] . Chris Dick 1996

机译：在基于FPGA的脉动阵列上计算离散傅立叶变换
8. Architecture and Numerical Accuracy of High-Speed DFT (Discrete Fourier Transform) Processing Systems [R] . Taylor, K. 1985

机译：高速DFT（离散傅里叶变换）处理系统的体系结构和数值精度

Systolic Variable Length Architecture for Discrete Fourier Transform in Long Term Evolution

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