Description
SimplyNUC Ruby R5 CBM1R5RB Desktop Computer – AMD Ryzen 5 4500U Hexa-core (6 Core) 2.30 GHz – 16 GB RAM DDR4 SDRAM – 512 GB M.2 PCI Express NVMe SSD – Small Form Factor – AMD Chip – Windows 10 Home – AMD Radeon Vega 6 Graphics DDR4 SDRAM – IEEE 802.11ax – 90 W
HIGH SPEED PERFORMANCE FOR HOME AND OFFICE
Featuring the new AMD Ryzen™ 4000 mobile processor with Radeon™ Vega graphics, and support for high-speed 3200 MHz DDR4 memory, Ruby is a new performance-driven small form factor PC. At home, stream 4K video, play games, or finish your homework. At work, Ruby keeps you productive – perfect for content creation, multitasking, and video conferencing. The Ryzen-based processors and high-speed memory remove bottlenecks keeping you on task or helping you relax while tucked behind a TV or monitor via the included VESA plate.
FEATURE RICH FOR VERSATILITY
Ruby supports up to four displays simultaneously, with up to 4K resolution at 60Hz for each monitor. Dual ethernet with 2.5Gbps and 1Gbps speeds allow you to connect to multiple networks, with one port providing DASH support for remote management of your mini. Ruby also features TPM for sensitive communications where encryption is required. Take advantage of Intel® Wi-Fi 6 (802.11ax) with high-speed connectivity enhanced for efficient bandwidth usage in environments with many connected devices. Ruby has ample accommodation for all your peripheral devices with four front 10Gbps SuperSpeed USB ports plus two rear Hi-Speed USB type-A ports. And if six USB ports is not enough, add a functional lid to your configuration for more I/O connections.
EFFICIENCY BY DESIGN
Ruby, built on AMD Zen 2 architecture, provides greater system performance over previous generations with advanced hyperthreading technologies driving faster speeds and enhanced graphics. Cloud computing, immersive gaming, and streaming all demand increasing computing performance with optimal energy efficiency. From the very beginning, AMD engineers designed their “Zen 2” core to meet those demands with more core throughput, larger caches, and powerful multi-threading capabilities.