New Taipei City, Taiwan, February 24, 2025 – Vecow Co., Ltd., a team of global embedded experts, proudly announces the NAC-1000, an Arm-based edge AI computing system built on the NVIDIA Jetson AGX Orin™ platform and integrated with the NVIDIA Isaac™ Perceptor collection of NVIDIA CUDA®-accelerated libraries, AI models, and reference workflows for the development of autonomous mobile robots (AMRs). This state-of-the-art system is purpose-designed to meet the evolving demands of AI-based robots, autonomous machines, and edge computing applications, delivering exceptional performance and efficiency.

Unleashing the Potential of AI-Based Robots

Powered by the NVIDIA Jetson AGX Orin™ system-on-module, the NAC-1000 combines exceptional energy efficiency with robust AI computing capabilities, delivering up to 275 TOPS. Fully compatible with NVIDIA Isaac Perceptor, the NAC-1000 is designed to accelerate the introduction of next-generation AMRs, enabling seamless deployment in dynamic and unstructured environments, including warehouses, factories, and other industrial applications.

Simpler and Consolidated System for Edge Computing

The NAC-1000 combines robust performance with a versatile set of I/O options, including 8 GMSL 1/2 automotive cameras, 2 USB 3.1 Gen 2 Type-C ports, 2 isolated CAN Bus interfaces, 4 M12 GigE PoE+ ports, and a 1000Base-T1 GigE LAN with an SPE connector—a highly efficient networking solution for autonomous machines, AI systems, and edge computing devices. These simplified integrations enhance flexibility for edge computing applications.

Engineered for efficiency, the NAC-1000 is equipped with off-the-shelf designs, including IP66-rated enclosures, M12 connectors, and Fakra-Z connectors. Additionally, it features built-in sensors—IMU, magnetometer, and altimeter—offering an all-in-one development platform for robotics.

The system is designed to thrive in demanding environments, supporting a wide power input from 9V to 50V, software ignition control, and an extended operating temperature range of -40°C to 85°C. These capabilities make it an ideal solution for both outdoor and harsh environment deployments.

Accelerating AI Development with NVIDIA JetPack

The NAC-1000 supports the NVIDIA JetPack™ 6 software development kit, providing developers with the tools to maximize the flexibility and scalability of the NVIDIA robotics platform. This comprehensive integration empowers users to accelerate the deployment of AI-driven applications across industries.

"Vecow is proud to be a Preferred member of the NVIDIA Partner Network program and to have close collaborations with the NVIDIA robotics team on this product,” said Esther Han, Senior Product Manager of Vecow’s Embedded Systems & Platform Division.  "The NAC-1000 represents a significant milestone in our Arm-based edge AI computing portfolio. By integrating NVIDIA Isaac Perceptor, we empower our customers to drive innovation in advanced AMR applications with exceptional performance and seamless deployment capabilities.”

To learn more about Vecow Arm-based edge AI computing system, please visit the Vecow NAC-1000 product page.

Welcome to visit Vecow's booth #237 during GTC 2025, March 18 to 21. Or learn more other Vecow Edge AI computing solutions based on NVIDIA® Jetson AGX Orin™, NVIDIA® Jetson Orin™ NX and NVIDIA® Jetson Orin™ Nano.

About Vecow

Vecow is a team of global embedded experts and we aim to be your trusted embedded business partner. Vecow is committed to designing, developing, producing, and supplying high quality AIoT solutions with trusted reliability, advanced technology, and innovative concepts. Our products include: AI-ready Inference Systems, AI Computing Systems, Fanless Embedded Systems, Vehicle Computing Systems, Robust Computing Systems, Single Board Computers, Multi-Touch Computers/Displays, Frame Grabbers, Embedded Peripherals and Design & Manufacturing Services for Machine Vision, Autonomous Car, Robotic Control, Rolling Stock, Public Security, Traffic Vision, Smart Automation, Deep Learning, and any Edge AI applications.

   Media Contact

   [email protected]

Stay Connected