Analysis and Design of Ethernet to HDMI Gateway Using Xilinx Vivado

Abstract

In the present era the increased complexity of design decreases the design cycle and reduces the cost. Efficient power consumption has led to the arrival of methodology of system-on-chip (SoC) in the semiconductor industry. A SoC usually contains reusable IPs, memory elements, bus architecture, that is for interfacing IPs, clock circuits and mixed signal blocks SRAM, that is embedded processors or controllers, and other components on SoC, programmable blocks, that is FPGA, and so on. The functionality of SoC can be easily improved by integrating more intellectual property (IP) components within it. A number of SoCs is integrated to form more complex system. Though the reuse of IPs on SoC has increased the hazard of misuse of IPs to the third-party entries, but it still plays an integral part of SOCs [1]. In silicon, IPP (industries IP protection) technique has been implemented in design flow of VLSI and has been extended to security considerations for SoC design methodology. In this paper the authors created IPs for Ethernet and HDMI using Xilinx Vivado 18.2, which is built for internet of things (IoT) application.