Design and Implementation of a Resource-Efficient Lossless Data Compressor on Xilinx FPGAs

Abstract

The Deflate encryption algorithm is one of the most frequently used lossless compression techniques, serving as the foundation for the.zip file formats, as well as the Hypertext Transfer Protocol. Field-Programmable Gate Arrays are increasingly being used to create hardware accelerator combinations with traditional Central Processing Unit (CPU) servers inside the Cloud server. FPGAs' capacity to be swiftly reprogrammed, as well as the intrinsically simultaneous capabilities that they provide, make them particularly well suited for some internet workloads, such as data compression and expansion. Good compression bandwidth utilization usually needs sacrificing some high compression. The fundamentally serial character of the secured manner allows concurrent mission execution in Deflate decompresses without changing the standardized format.Lossless compression is used to minimize data storage and to make better use of limited transmission capacity. The volume of information gathered, analyzed, and communicated through the Internet continues to grow in today's technology age. As a result, efficient data compressing and extraction method hardware and software implementations are now becoming increasingly useful.