【Autonomous Driving】4-channel Vehicle PCIE Video Injection Card Solution
Applied in the fields of autonomous driving such as injection image simulation, in-vehicle video playback, hardware-in-the-loop HIL simulation, etc.【industry】Camera Link interface high-speed camera PCIE capture card solution
Based on Xilinx's ZYNQ Ultrascale+ MPSoC series FPGA chip design, Used in industrial fields such as factory automation, machine vision, industrial quality inspection, etc.【Autonomous Driving】8-channel vehicle PCIE video injection card solution
Based on Xilinx ZYNQ Ultrascale+ MPSoC series FPGA chip design, it is applied in the fields of autonomous driving such as injection image simulation, in-vehicle video playback, hardware-in-the-loop HIL simulation, etc.【AUMO】A Solution for Diverting and Collecting Multiple GMSL2 Cameras for Autonomous Driving
A Solution for Diverting and Collecting Multiple Cameras for Autonomous Driving【MED】4-channel 12G-SDI 4K video PCIE capture card solution
Based on Xilinx ZYNQ Ultrascale+ MPSOC FPGA chip design, it is used in medical equipment, video clip capture, streaming media server, broadcast media design and other industries【Autonomous Driving】16-channel vehicle GSML camera PCIE capture card solution
【AI】AI edge computing solution based on FPGA
Logic chips can be divided into four categories according to their functions: general processor chips (including central chip CPU, graphics processing chip GPU, digital signal processing chip DSP, etc.), memory chips, special integrated circuit chips (ASI