Industry background. FPGA chips With the continuous development of adaptive SoC and FPGA technologies, we are able to implement compact and high-performance industrial cameras and frame grabbers to deliver the embedded visual intelligence our customers demand. The use of this visual intelligence requires superior IP, software, or sensor technology to differentiate their industrial imaging products. 【XCZU9EG-2FFVB1156I】Embedded FPGA chips have important value in factory automation camera applications. 
Machine vision solutions.
For machine vision solutions, the [XCZU9EG-2FFVB1156I] embedded FPGA chip has industry-leading advantages. Not only does it offer high-performance compute density and performance-per-watt, but it also supports all major sensor and camera interfaces. This chip has a small size, low latency, low power consumption, and integrates a unified chip, which perfectly realizes the unity of small size, low latency and low power consumption. This scalability allows it to scale across the entire product range to meet growing demand.
Chip performance advantages.
First of all, in terms of safety, security and reliability, this chip comes with Artix UltraScale+, which provides a guarantee for factory automation cameras. Secondly, the performance advantage of the chip is that it supports the latest versions of sensor and camera interfaces, including MIPI, SLVS-EC, LVDS, gige vision, Coaxpress, and USB3 vision. In addition, it has high-speed serial IO performance and complies with the IEC 62443 cybersecurity standard. For safety, it complies with IEC 61508 SIL 3 and ISO 13849, e.g. for vision-guided robots.
In summary, the XCZU9EG-2FFVB1156i embedded FPGA chip also has other device support, including Artix UltraScale+, Kintex UltraScale+, Artix 7, Spartan 7, etc. These devices are combined on the platform with the programmable logic of a general-purpose real-time processor and 599500 LE logic elements. The platform is available in three different variants, including dual-core applications processor (CG) devices, quad-core applications processors and GPU (EG) devices, and **codec (EV) devices. These different variants create endless possibilities for 5G wireless, next-generation ADAS, and the Industrial Internet of Things.