Moxa introduces Its first AI-ready rackmount x86 IPCs
Moxa Europe has announced the launch of its first AI-ready rackmount IPCs, the RKP-C220 Series. The RKP-C220 comes with a x16 PCIe slot that supports full-length discrete GPU cards for AI-accelerated performance at the edge. Additional PCIe slots, a x8 and a x1, provide flexible expansion options. The robust fanless thermal design, high-performance processor, and comprehensive I/O expansion options enable the RKP-C220 to drive optimal performance from distributed devices for your Edge AI applications.
The RKP-C220 with its versatile PCIe slots, including a x16 slot that supports full-length GPU cards, is developed for AI platforms to efficiently handle data cleansing, complex data analysis, and enable accurate responses to user requests. Furthermore, RKP-C220 has passed the Intel Edge System Qualification (Intel ESQ) test using the AI language model for the Metro Device Qualification Test. This qualification validates RKP-C220’s ability to run demanding AI language models with high performance, enabling rapid development of AI applications.
The RKP-C220 Series is built using Moxa’s patented fanless heat-dissipation technology for reliable performance. By efficiently directing processor heat to an external cooling fin, the computer can provide stable continuous operations while running demanding AI language models for maintenance-free performance at the edge.
The fanless rackmount IPC comes with a wide operating temperature range and is built around a 13th Gen Intel Core processor with up to 24 cores and 32 threads, ensuring smooth execution of intense workloads. The RKP-C220 provides comprehensive storage flexibility for versatile data management by supporting two 2.5-inch SSD slots and three high-speed M.2 storage slots with two sets of Intel RST RAID 0/1.
Furthermore, the RKP-C220 comes with a rich set of connectivity options, including up to 8 LAN ports, 10 serial ports, and 2 CAN ports, enabling seamless integration with diverse field devices and data transmission across complex networks.
