S500+ 5800U
- CPU
- AMD r7 5800U
- GPU
- AMD Vega 8
- Cores
- 8P / 16T
- RAM
- 64GB / 2 slots · 3200 MT/s
- Storage
- 3 (2× NVMe) · 1×2.5"
- LAN
- 2× 2.5G
- Size
- 150×145×40mm · 0.87L
The iKoolcore R1 Pro is a mini PC powered by the Intel Pentium N6005 (11th gen). It features a soldered CPU. Graphics are handled by the integrated Intel Jasper Lake 32EU. Supports up to 16GB of RAM at 4233 MT/s. Storage capacity of up to 2 drives including 1 NVMe. Networking features 4 Ethernet ports (up to 2.5G). Dimensions: 75 × 75 × 48mm (0.27L).
Recommended for office work, web browsing, media playback, light home or business use, network-focused setups, and very small desk setups. Consider iKoolcore R1 Pro if you want a ultra-compact mini PC built around its listed Intel Pentium N6005 processor and Intel Jasper Lake 32EU integrated GPU. It is less suitable for heavy gaming or GPU-accelerated workloads because no discrete or high-speed external GPU path is listed.
iKoolcore R1 Pro features Intel Pentium N6005 with Intel Jasper Lake 32EU integrated GPU, offering 4× 2.5G Ethernet. CPU details include 11th CPU generation and 4 threads. Memory support includes up to 16GB RAMat 4233 MT/s. Storage support includes up to 2 storage drives including 1 NVMe SSD slot, 1× PCIe Gen3 x4 NVMe, and SD card reader. Display support includes support for up to 2 displays. Networking includes 4× 2.5G Ethernet. Physical design includes a 75 × 75 × 48 mm chassis (0.27L). Cooling information lists 50 mm main fan. Power information lists 48W power supply and 10W TDP. Lifecycle information lists 1-year warranty.
Based on its overall score of 152.9, iKoolcore R1 Pro is positioned as a mainstream mini PC entry in this dataset; compare it against alternatives by CPU class, GPU type, memory ceiling, storage expansion, LAN, and port selection.
basic office work, web browsing, digital signage, high-speed NAS or homelab networking, very small desk setups.
you need modern AAA gaming or sustained GPU rendering; you need a high-speed external-GPU or advanced docking path; you plan to run memory-heavy workloads.