Evolving into intelligent, connected, real-time systems
Automation systems demand reliable, high-performance computing that can operate continuously in harsh industrial environments.
Automation equipment needs precise timing, low jitter, and synchronized communication.
Vision inspection, PLC logic, and AI inference require different compute levels.
Harsh factory environments accelerate hardware failure and complicate maintenance.
Q7 offers balanced performance and industrial reliability, making it ideal for motion control, HMI, and robotic systems. The compact 70 × 70 mm footprint fits seamlessly into limited-space automation enclosures. Its long-term availability ensures stable production planning for long-lifecycle automation equipment.
SMARC provides low-power yet high-efficiency compute performance, perfect for sensor hubs, gateway controllers, and lightweight AI tasks. With rich I/O and flexible interfaces, it integrates smoothly into distributed automation nodes. Its thermal efficiency enables fanless designs for cleanroom and vibration-heavy environments.
COMe delivers workstation-class performance for high-end inspection, edge servers, and heavy AI vision workloads. The high pin count and robust interface support make it ideal for complex industrial automation designs. It provides future-proof scalability with powerful CPU/GPU configurations.
These compact systems combine modular compute with rugged PC design, ideal for factory floors. They reduce integration time while supporting flexible module changes as workloads evolve. Their fanless reliability ensures continuous operation in dusty or high-vibration environments.
TSN small PCs provide deterministic networking, essential for synchronized robotics, CNC machines, and distributed automation control. Their industrial-grade hardware ensures extremely low latency communication across the production line. By integrating TSN directly at the edge, they eliminate the need for additional real-time networking hardware.