What is the AIE015-AT designed for? + The AIE015-AT is a robotics developer kit built for humanoid robots, physical AI, autonomous machines, AI-assisted medical robotics, and other next-generation robotics applications requiring real-time AI inference and sensor fusion.
What AI performance does the AIE015-AT provide? + Powered by the NVIDIA® Jetson Thor™ T5000 or T4000 module, the AIE015-AT delivers up to 2070 TFLOPS of AI performance, enabling generative AI, multimodal AI, Vision-Language-Action (VLA), and advanced robotics workloads.
What camera and sensor interfaces are available? + The platform supports one QSFP28 interface (up to 4×25GbE) and up to 8-channel GMSL cameras, providing high-bandwidth connectivity for synchronized multi-camera systems, LiDARs, and other sensors used in robotics and perception applications.
Which NVIDIA software platforms does the AIE015-AT support? + The developer kit is optimized for NVIDIA Isaac™, NVIDIA Holoscan™, and NVIDIA Metropolis™, allowing developers to build AI-powered robotics, autonomous systems, machine vision, and intelligent video analytics applications.
What connectivity and expansion options does the AIE015-AT offer? + It provides comprehensive industrial connectivity including QSFP28, GbE with optional PoE, HDMI, USB, COM/CAN, 16-channel DIO, as well as support for 5G and Wi-Fi 6E, enabling flexible integration with robotics and industrial peripherals.
Is the AIE015-AT suitable for mobile robots and autonomous vehicles? + Yes. It supports a 9–36 VDC wide-range power input, Smart Ignition power control, CAN 2.0A/B and CAN FD interfaces, making it well suited for AMRs, autonomous vehicles, service robots, and other mobile robotic platforms.
Why choose the AIE015-AT for robotics development? + By combining NVIDIA Jetson Thor™ AI performance, advanced camera and sensor interfaces, comprehensive NVIDIA AI software support, industrial-grade I/O, and flexible wireless connectivity, the AIE015-AT provides a complete development platform for accelerating next-generation robotics and Physical AI applications.