ALINX Design Service Case for Autopilot Data Acquisition
With the continuous development of automatic driving technology, the demand of industry customers such as car manufacturer and automatic driving algorithm solution companies in the field of hardware-in-the-loop simulation testing has greatly increased, and customers need to accurately simulate the traffic conditions of richer scenes in the laboratory to test the ADAS perception algorithm and control logic.Medical Endoscope and Surgical Robot Endoscope and Surgical Robot Solution - FPGA+GPU Heterogeneous Architecture Platform
ALINX is based on the heterogeneous design of AMD Zynq UltraScale+MPSoC+NVIDIA Jetson Orin NX to meet the needs of the endoscope and surgical robot industry, meeting the requirements of high-speed data transmission and AI computing processing; High definition video image acquisition and processing set, 8K high-definition video image display, 3D image processing; Synchronize left and right eye video data with a synchronization accuracy of 1 line; End to end delay within 50 milliseconds; Fluorescent and supports SDI/HDMI interfaces and other requirements.Industrial Automation and Inspection Solutions - FPGA+GPU Heterogeneous Architecture Platform
ALINX is designed based on the heterogeneous architecture of AMD Zynq UltraScale+MPSoC and NVIDIA Jetson Orin NX, specifically designed for industrial computer vision needs. The platform adopts YOLOX object recognition algorithm, providing extremely high detection accuracy and speed, with mAP up to 0.9 and recognition speed up to 50FPS.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.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.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.8-channel GMSL camera diversion acquisition solution
A Solution for Diverting and Collecting Multiple Cameras for Autonomous Driving, Supports 8-channel GMSL2 camera acquisition, Supports up to 8 channels of 8MP resolution camera bypass output. ,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 industries16-channel vehicle GSML camera PCIE capture card solution
Support up to 16-way GMSL1/2 camera input. Used in autonomous driving fields such as unmanned driving, slow-speed special vehicles, data acquisition vehicles, and in-vehicle simulation test systems.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