“ADLINK’s adoption of ACRN is a great testimonial to the maturity of the project, as an open-source real-time hypervisor for the most demanding applications,” said Eddie Dong, Project ACRN’s architect and maintainer. “The collaboration between ADLINK and Project ACRN has been a true win-win situation; using ACRN hypervisor to consolidate heterogeneous workloads brings added value and unleashes the computing power of the ROSCube-I platform. It puts ACRN at the heart of a commercial solution for industrial customers.”
ADLINK’s ROScube-I series, powered by Intel Xeon E processor, 9th Gen Intel Core i7/i3 and 8th Gen Intel Core i5 processor, and Intel Edge Controls for Industrial, is now one of the first ROS 2 robotic controllers validated for ACRN real-time hypervisor and provides a powerful, scalable solution for robotics applications, from mainstream to high end. The ROScube-I also features exceptional real-time I/O connectivity supports a wide variety of sensors and actuators to meet the needs of real-time robotic applications. The ROScube-I supports an extension box for convenient functionality and performance expansion with Intel VPU cards and the Intel Distribution of OpenVINO toolkit for computation of AI algorithms and inference.
Robotic systems based on the ROScube-I are supported by ADLINK’s Neuron SDK, a platform specifically designed for professional robotics applications such as autonomous mobile robots (AMR). With the newly released ROS 2 Foxy Fitzroy (foxy), Neuron SDK customers can enjoy the benefits of long-term support (LTS), as well as ADLINK's quality-guaranteed services for ROScube.
The ROScube-I series features:
- High-performance x86-64 mainstream architecture for ROS 2 development
- Comprehensive I/O for connecting a wide range of devices
- Real-time I/O for environmental sensors (CAN, GPIO, COM)
- Real-time middleware for communication between software components and devices
- Real-time hypervisor for safe mission-critical execution
- Ruggedized, secure connectivity with locking USB ports
- RTOS such as Xenomai
“Virtualization is especially important in industrial environments because of device and application longevity. Virtualization enables factories to modernize their robot control system hardware by using VMs to run older control systems and operating systems far beyond their intended retirement dates,” said Dr. Ryan Chen, Director of the Advanced Robotic Platform Group at ADLINK. “Our customers can leverage this technology on our ROScube-I controller, for example, to run human-machine interfaces (HMI) in User OS, run artificial intelligence (AI) in Service OS and leave some compute function running on soft programmable logic controllers (PLC) that require hard real-time characteristics. This gives customers the ultimate in future-proof flexibility and reliability, allowing them to scale up development.”
“Robotic controllers based on Intel hardware and software platforms enable flexible, reliable and scalable solutions for some of the most advanced robotics applications. Real-time hypervisors, Intel Distribution of OpenVINO toolkit and Intel architecture make it easy to integrate data, devices, and processes while improving operational efficiency. Intel and ADLINK are both active contributors to the ROS 2 community and it is great to see this work in action,” said Brian McCarson, Vice President, Internet of Things Group at Intel Corporation.