Improving the quality of communication is very necessary with recent technology. Include the building of 5G wireless networks and growth of various communication tools. A method known as adaptive digital beam forming is one that adjusts an antenna's radiation pattern array inside response to a particular signal reception that is desired. An adaptation this is based on (LMS) and its variant continues to be one of creative strategies that are employed the most. The improvement of antennas has led to the creation of high-performance hardware, even though those LMS techniques provide impressive computing performance. Systems like (FPGAs)-Field Programmable Gate Arrays, which were developed used for large array system, provide designs that are both high-performance and efficient with regard to energy consumption. The proposed work in this study presents a parallel implementation of a vast array beam forming system utilizing LMS on FPGAs with conventional and XOR-MUX full adder designs. The beam-forming system consists of a spatial filter and an adaptation unit. This proposed work was developed at Verilog HDL, synthesized on a Xilinx A vertex- 5 FPGA, and evaluated every parameter concerning area, latency, and power consumption. © 2024 Elsevier B.V., All rights reserved.