DFI, the world’s leading brand in embedded motherboards and industrial computers, today announced the launch of the RAP310, a high-performance microATX industrial motherboard designed to meet the demanding requirements of modern industrial computing, AI applications, and medical image systems.
Built on AMD’s advanced AM5 socket platform with LGA design, the RAP310 features the latest AMD Ryzen™ 7000 Series processor with Zen 4 architecture. This powerful combination features 12 cores and 24 threads, with support for up to 128GB of DDR5 memory via four UDIMM slots, running at up to 5200 MHz in dual-channel mode. The integrated AMD Radeon Graphics ensures superior visual performance while maintaining an efficient 65W TDP, making it ideal for industrial environments where power efficiency is crucial. This exceptional processing and memory performance ensures smooth handling of data-intensive applications and real-time processing requirements.
“The RAP310 embodies our commitment to delivering cutting-edge industrial computing solutions that drive the future of smart manufacturing,” said Jarry Chang, General Manager of Products Center at DFI. “By incorporating AMD’s latest processor technology and advanced features, we’re enabling our customers to push the boundaries of industrial, medical imaging and AI applications.”
The motherboard’s extensive expansion capabilities include two PCIe x16 slots (configurable as x16 or x8+8), two PCIe x4 slots, one M.2 E key, one M.2 M key, and four SATA 3.0 ports, providing maximum flexibility for industrial system integration. This comprehensive connectivity suite enables seamless integration of AI accelerators, high-speed storage, and specialized industrial automation modules.
Visual capabilities are enhanced through the AMD RDNA™ 2 architecture, featuring 1 WGP operating at up to 2.2GHz. The triple-display support includes VGA (up to 1920×1200@60Hz), DP++ (up to 3840×2160@60Hz), and HDMI 2.0 (up to 4096×2160@60Hz), making it perfect for industrial monitoring, medical imaging systems, and control applications. The high-resolution display support is particularly valuable for medical imaging applications where precise visual clarity and accuracy are essential.