Pipelined CORDIC Architecture Based DDFS Design and Implementation

In this paper, an efficient approach is presented to design and implement a moderate speed and area efficient digital sinusoidal and cosinusoidal wave generator for wireless applications like RADAR, Digital Signal Processing. The implementation is based on direct digital frequency synthesizer using...

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Bibliographic Details
Main Authors: Verma, Sandeep Kumar, Pullakandam, Muralidhar, Yanamala, Rama Muni Reddy
Format: Conference Proceeding
Language:English
Subjects:
Computer architecture
CORDIC
DDFS
FPGA
Hardware implementation
ILA
Pipeline
Pipelines
Power demand
Resource management
Signal processing algorithms
Simulation
Synthetic aperture radar
Table lookup
Verilog HDL
VIO
Online Access:Request full text
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Summary:In this paper, an efficient approach is presented to design and implement a moderate speed and area efficient digital sinusoidal and cosinusoidal wave generator for wireless applications like RADAR, Digital Signal Processing. The implementation is based on direct digital frequency synthesizer using Coordinate Rotation Digital Computer (CORDIC) algorithm which uses shifts, additions, and a very small look-up table (LUT). It is an efficient method used to compute trigonometric functions, multiplications, divisions, data type conversions, and hyperbolic functions simply and elegantly. The proposed design is synthesized with Xilinx Vivado v.2022.2 tools, simulated with Vivado Built-in simulator, and practically verified the designed CORDIC processor IP with Virtual Input Output (VIO), and Integrated Logic Analyzer (ILA) on Xilinx NEXYS 4 DDR (XC7A100T-CSG324) Artix-7 Series FPGA Board. The project attempts to reduce resource use while enhancing delay, accuracy, resolution, and area. The results demonstrated improved performance using the proposed CORDIC algorithm in terms of power consumption, high resolution, resource utilization, and generate moderate speed of sinusoidal and cosine waveforms for a frequency range from 2.78 x 10 -5 MHz to 99.72 MHz.
ISSN:2325-9418
DOI:10.1109/INDICON59947.2023.10440811