International Journal of Engineering and Management Research (IJEMR)
  • Year: 2019
  • Volume: 9
  • Issue: 6

Design and Implementation of Low Power High Speed Symmetric Decoder Structure for SDR Applications

  • Author:
  • Nidhin Sani1, Agath Martin2, Abin John Joseph3, R. Nishanth4,
  • Total Page Count: 4
  • Page Number: 87 to 90

1Assistant Professor, Department of Information Technology, CUSAT, CUCEK, India

2Assistant Professor, Department of Information Technology, CUSAT, CUCEK, India

3Assistant Professor, Department of Electronics & Communication Engineering, CUSAT, CUCEK, India

4Assistant Professor, Department of Electronics & Communication Engineering, CUSAT, CUCEK, India

*Corresponding Author: nishanth.jino@gmil.com

Online published on 23 January, 2020.

Abstract

The key objective of this project is to design a decoder which can be used for hardware purposes. Hardware, here accompanies with software which is more we can discuss as a Software Defined Radio application. The decoder implemented here offers to new radio equipment (SDR), the flexibility of a programmable system. Nowadays, the behavior of a communication system can be modified by simply changing its software. Large tree decoder is made by reusing smaller similar sub-modules. Thus the structure is symmetric. The symmetric and regular structure of tree decoder makes the system a less complexity one. The structure obeys regularity and modularity concepts of VLSI circuit, thus is easy to fabricate using cell library elements. Design a Tree Decoder proposed architecture for SDR application on FPGA. The Structures made here are hardware synthesizable on FPGA board and are done in a respective manner. The design to be implementing by using Verilog-HDL language. The Simulation and Synthesis by using Xilinx Vivado design suite.

Keywords

Software Defined Radio(SDR), Tree Decoder, FPGA, HDL