A master’s thesis in the College of Engineering at the University of Basrah discussing (Implementation of a Chaotic System Using the Matrix of Programmable Logic Gates)

The thesis presented by the student Wisal Adnan Mansour In this thesis, the (ANN) structure has been implemented using Field Programmable Gate Array (FPGA) technology for time series prediction. Then it was used as a new encryption mechanism. The use of FPGAs in system implementation provides significant design modification benefits. FPGAs are a low-cost, easy-to-use and flexible option for implementing a digital system on a single chip. It is believed that these tools.

It is an excellent technique for implementing chaotic systems, which are non-linear systems characterized by their sensitive dependence on initial conditions.

One of the Effective techniques for designing digital systems that have been used is the Zylinx System Generator tool.

To implement the chaotic Chua system MATLAB is a high-level graphical interface tool that generates VHDL (hardware markup language) code for circuits.

Integrated) complex from simple block design. The Chaotic Chua system is taken as an example of a dynamic system because it is characterized by its simplicity and displays dynamics Nonlinear complex as chaos.

The thesis aims to implement a chaotic system using the logic gates matrix, as it is a low-cost, easy-to-use and flexible option to implement a digital system on a single chip.

The thesis concluded that two methods were designed to encode images in the method. The first is an image encryption technology based on cloaking and chaotic synchronization, while the second method uses a new encryption technology based on the Chua system anarchist based artificial neural networks.

These two methods are efficiently implemented by (XSG) on board (FPGA).