- June 04, 2020
June 5, 2020 – Aetina, a provider of GPGPU solutions, announced the AN110-XNX edge AI computer leveraging the capabilities of the NVIDIA Jetson Xavier NX, expanding its range of edge AI systems built on the Jetson platform for applications in smart transportation, factories, retail, healthcare, AIoT, robotics, and more.
The AN110-XNX combines the NVIDIA Jetson Xavier NX and Aetina AN110 carrier board in a form factor of 87.4 x 68.2 x 52 mm (with fan). AN110-XNX supports the MIPI CSI-2 interface for 1x4k or 2xFHD cameras to handle intensive AI workloads from ultra-high-resolution cameras to more accurate image analysis. It is as small as Aetina’s AN110-NAO based on the NVIDIA Jetson Nano platform, but delivers AI computing via the new Jetson Xavier NX. With 384 CUDA cores, 48 Tensor Cores, and cloud-native capability the Jetson Xavier NX delivers up to 21 TOPS and is a platform to accelerate AI applications. Bundled with the latest NVIDIA Jetpack 4.4 SDK, the energy-efficient module expands the choices now available for developers and customers looking for embedded edge-computing options that demand increased performance to support AI workloads but are constrained by size, weight, power budget, or cost.
Also, Aetina offers a full system, AN110-XNX-EN70 with fanless chassis enabling quick time to market. For backup support, Aetina offers BSP and DTB configuration updates for both standard and customized platforms in their service policy. The company is developing Jetson Xavier NX based edge computing platforms with 5G communications capability and full function browser-based edge device management.
As an NVIDIA Preferred Partner, Aetina focuses on delivering edge AI computing solutions based on the Jetson platform for embedded applications. NVIDIA Jetson is the leading AI-at-the-edge computing platform, with nearly half a million developers. With support for cloud-native technologies now available across the NVIDIA Jetson lineup, manufacturers of intelligent machines and developers of AI applications can build and deploy high-quality, software-defined features on embedded and edge devices targeting robotics, smart cities, healthcare, industrial IoT and more.