Abstract
This article presents the development and implementation of a field-programmable gate array (FPGA)-based assessment verification system to ensure the integrity of academic data in the context of digitalization of the educational process. A modular architecture is proposed, using the Jenkins hash function as a training example, ensuring rapid data verification with minimal resource consumption. The proposed training system features a distributed architecture with multiple FPGA nodes networked to a central routing server, enabling students to learn the principles of building scalable data processing systems. The developed system is intended for educational purposes and to demonstrate the principles of hardware implementation of hashing algorithms. Keywords: FPGA, data verification, hashing, data integrity, Cyclone V, training platform.