A small fanless system runs edge tasks, connects devices, processes data near source, and fits tight spaces. Built for use in industrial and IoT setups.
IBASE Technology has announced the ASB100-PI800, a palm-sized fanless edge computing system designed for space-constrained and low-power industrial IoT applications. Powered by the Intel Atom x7433RE processor and built on the IBASE PI800 PICO-ITX board, the ASB100-PI800 delivers reliable computing performance with strong energy efficiency.
It supports applications such as smart factory automation, intelligent retail systems, and distributed IIoT deployments. The system combines performance, reliability, and scalability to meet the need for decentralized edge computing.
The edge computing system is aimed at system integrators, OEMs, industrial automation engineers, and solution providers working on edge and IIoT deployments. Using this system, they can build and deploy compact edge nodes for real-time monitoring, data collection, and local processing. It can be used to run machine control systems, connect sensors and devices, enable wireless communication, and process data close to the source without relying on cloud infrastructure. This helps reduce latency, improve response time, and simplify system design in distributed environments.
Engineered for industrial-grade reliability, the system features a fanless design that enables silent and maintenance-free operation. It supports expansion through dual M.2 slots for storage, wireless connectivity, and IoT integration, allowing system integrators to configure the platform for different edge use cases.
ASB100-PI800 Key Features:
- Ultra-compact palm-sized fanless design (133 × 102.2 × 51.5 mm)
- Intel Atom x7433RE processor for low-power edge computing
- Dual M.2 expansion for storage and wireless connectivity
- Industrial-grade reliability with support for 24/7 operation
- Designed for space-limited IIoT and embedded applications
The system is suitable for deployment in space-limited environments such as industrial control cabinets, smart kiosks, and distributed edge nodes.