International Journal of Innovations in Management, Science and Engineering (IJIMSE) ISSN: 2582-6778, Volume-01, Issue-01, March 2020 Retrieval Number: IJIMSE010103202004 10 Low Power Implementation of Reed Solomon Coding Jyoti Kandpal M.Tech. Scholar, Department of ECE, Uttarakhand Technical University, Dehradun jayakandpal27@gmail.com Harshita Prasad M.Tech. Scholar, Department of ECE, Uttarakhand Technical University, Dehradun harshi2207@gmail.com Gaurav Verma Asstt. Professor, Department of ECE, JIIT, Noida gaurav.iitkg@gmail.com Abstract Advantage of error detection and correction techniques along with information theory is that it enables reliable delivery of digitized data over communication channels that might be unreliable. Multiple communication channels while operating have to handle the channel noise resulting in errors occurring during transmission from transmitter to a receiver located at some distance. In this paper, a sophisticated error control coding i.e. Reed Solomon Coding technique has been implemented using VHDL and implementation is done on Virtex XC6VLX50 FPGA. The simulation result shows successful design of transmitter and receiver section. We also make use of the clock gating technique for reducing the power consumption of the design Keywords: Galois field, polynomial, code word, modulo operation. 1. Introduction Communication is the phenomenon of transmitting information. Whether its correction or detection of error or error controls techniques, both are successful in reliable delivery of digitized data on even an unreliable communication channels [S. D. Potey.et.al., 2019]. With the help of Error detection techniques we can detect errors, while error correction allows efficient reconstruction of the data which was originally sent [A. H. Saleh et al.,2018]. Keeping in mind all the improvements in communication field, reliability and efficiency are the two crucial factors that should be must. Data is often subjected to noise and multipath fading, whenever data is transferred over a wireless medium. In this thesis we define a