FPGA Implementation of Reconfigurable CORDIC Algorithm and a Memristive Chaotic System with Transcendental Nonlinearities

A powerful iterative technique that computes a variety of transcendental mathematical functions is called the Coordinate Rotation Digital Computer (CORDIC). The hardware architecture and FPGA implementation for the reconfigurable CORDIC algorithm are proposed in this paper and cover all feasible CORDIC algorithm configurations. Two approaches—one multiplier-less and one single multiplier—that both have advantages are used to introduce the suggested architecture. In terms of the number of configurations offered, the suggested implementation surpasses current similar studies. It also shows how well hardware is used and how well it fits the needs of possible applications. In addition, the proposed design is used to model a memristive chaotic system with a variety of transcendental functions computed with the proposed reconfigurable block.The effectiveness of the proposed method is synthesized and simulated using Xilinx ISE.