FPGA Based Data Transmission Frameworks for ...

FPGA Based Data Transmission Frameworks for Embedded Controllers

Author Name : Mahaveer Siddagoni Bikshapathi, Imran Khan, Satish Vadlamani, Dr. Lalit Kumar, Prof. (Dr) Punit Goel, Dr S P Singh

ABSTRACT The increasing demand for high-speed, low-latency communication in embedded systems has driven the development of efficient data transmission frameworks based on Field-Programmable Gate Arrays (FPGAs). This paper explores FPGA-based data transmission frameworks designed to enhance the performance and reliability of embedded controllers across diverse applications, including industrial automation, IoT, and automotive systems. FPGAs offer several advantages, such as real-time data processing, parallelism, and flexibility, making them ideal for handling complex communication protocols. By integrating custom IP cores and leveraging hardware-software co-design methodologies, the proposed frameworks achieve high throughput, minimal delays, and optimal energy efficiency. The study presents a modular design approach where communication interfaces, such as UART, SPI, and Ethernet, are implemented directly on FPGAs, allowing seamless interaction with sensors, actuators, and other peripherals. Special emphasis is placed on error detection and correction techniques to ensure data integrity, even under adverse operating conditions. Furthermore, the framework supports dynamic reconfiguration, enabling the system to adapt to changing communication standards without hardware modifications. Performance benchmarks demonstrate the effectiveness of these FPGA-based frameworks in terms of transmission speed and resource utilization compared to traditional microcontroller-based solutions.