The NVIDIA® Jetson Orin™ Nano is the idealentry point into the Jetson ecosystem. As a compact andcost-efficient module, it provides excellent access to NVIDIA’spowerful edge AI platform—making it perfect for developers,startups, and companies looking to implement their first AIapplications or turn prototypes into market-ready solutions.
While the Jetson Nano represents the entry-leveltier in terms of performance within the portfolio, users stillbenefit from the full Jetson ecosystem: CUDA, cuDNN, TensorRT, theJetPack SDK, a broad developer community, and long-term softwaresupport. This enables efficient development, optimization, and directdeployment of AI models at the edge—without reliance on cloudinfrastructure.
Off-Highway + Construction
Agriculture
AGVs + Mobile Robotics
Coming soon
NVIDIA® Jetson Orin™ Nano
Super Mode
AI Accelerator
Agriculture
Off-Highway + Construction
AGVs + Mobile Robotics
Coming soon
NVIDIA® Jetson Orin™ Nano
Super Mode
AI Accelerator
The NVIDIA Jetson Nano Super modules represent the ideal entry point into professional Edge AI GPU computing. The Jetson Nano platform stands out for their flexibility, energy efficiency, and outstanding price-performance ratio – while providing full access to NVIDIA’s scalable Jetson ecosystem.
Whether developing AI-based image processing, intelligent gateways, or autonomous systems, the Jetson Nano series enables efficient GPU-accelerated AI inference directly at the edge. Developers benefit from a consistent software environment and can seamlessly scale performance as project requirements grow. Solutions initially built on Jetson Nano or Jetson Nano Super can later migrate to more powerful modules such as Jetson Orin NX or Jetson AGX Orin – without changing the development framework.
This scalability makes the Jetson Nano family a strategic starting point for industrial Edge AI applications. Syslogic takes this foundation to the next level. As a Preferred Partner in the NVIDIA Partner Network, Syslogic develops and manufactures ultra-rugged, AI-ready embedded systems based on NVIDIA Jetson Nano Super SoMs (System-on-Modules).
Syslogic’s field-proven Edge AI computers are engineered specifically for demanding, mission-critical environments where durability, reliability, and long-term availability are essential. Powered by NVIDIA’s GPU technology, these systems deliver robust Edge AI GPU computing performance in real-world industrial conditions.
Powered by NVIDIA® Jetson Nano™ Super, Syslogic embedded systems enable efficient AI GPU computing at the edge. Ideal for computer vision and intelligent IoT applications, they deliver reliable GPU-accelerated AI inference in a compact design.
Syslogic integrates NVIDIA® Jetson Nano™ Super into robust, fanless systems built for harsh environments. With durable housings and industrial-grade components, they ensure reliable operation under dust, moisture, vibration, and mechanical stress.
Syslogic systems based on NVIDIA® Jetson Nano™ Super support GMSL2 automotive cameras via FAKRA Z connectors. This enables reliable, high-speed image transmission – ideal for rugged vehicle, mobile robotics, and industrial vision applications.
From Orin Nano, Orin Nano 8GB, Orin NX 8GB/16GB, up to Jetson AGX Orin and Jetson AGX Thor — our technical sales team will help you select the ideal Syslogic embedded computer for your performance and environmental requirements. Contact us for expert guidance.
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Jetson Nano–based embedded computers are compact, energy-efficient systems designed to run AI applications directly at the edge, close to sensors, cameras, and machines. By processing data locally instead of in the cloud, they enable low-latency performance, reduced bandwidth usage, and improved data privacy.
Below, we answer some of the most common questions about Jetson Nano–based embedded computers and their use in industrial, robotics, and IoT applications.
Jetson Nano–based embedded systems are well suited for entry-level to mid-range AI inference workloads at the edge. They efficiently handle computer vision tasks such as image classification, object detection, facial recognition, basic multi-camera setups, and lightweight sensor processing in real time.
Jetson Nano is particularly suitable for smart cameras, edge gateways, IoT devices, robotics prototyping, educational platforms, and compact automation systems where low power consumption, cost efficiency, and compact design are key requirements. While not designed for large generative AI models or heavy multi-sensor fusion workloads, it delivers reliable performance for focused AI applications deployed directly at the edge.
Jetson-based embedded computers combine GPU-accelerated AI processing with low power consumption in a compact design. Unlike traditional IPCs that rely primarily on CPU performance, Jetson systems enable real-time AI inference directly at the edge without requiring cloud connectivity. This reduces latency, bandwidth usage, and increases data security — especially important in industrial and mobile environments.
Jetson modules such as Nano, Orin, or AGX are computer-on-modules that provide the core processing capabilities for AI and edge computing applications. Industrial embedded computers integrate these modules into fully engineered systems designed for demanding environments. They feature ruggedized housings, extended temperature range designs, and resistance to shock and vibration. In addition, they offer long-term availability and support, along with industrial I/O interfaces and fieldbus connectivity required for automation and mobile machinery. This integration makes them ready for reliable deployment in harsh real-world conditions.
Jetson-based embedded computers typically run NVIDIA JetPack, which is based on Ubuntu Linux and includes optimized drivers, libraries, and development tools for AI and GPU-accelerated applications. In addition, they support custom Linux distributions tailored to specific industrial or embedded requirements. Many deployments use Docker-based container environments to ensure scalable and maintainable software architectures. For robotics applications in particular, Jetson systems commonly operate with ROS or ROS2, enabling advanced navigation, perception, and control functionalities.
