I recently got a look at a compact mini PC from Beelink called the ME, and what makes it stand out is its ability to hold six NVMe drives internally. This device is built with network-attached storage in mind, and while I’m demoing it here with Unraid, it also supports other NAS operating systems and Linux distributions. It even ships with a licensed copy of Windows if you want to go that route.
You can see it in action in my latest review.
Inside, it runs on an Intel N150 processor—definitely on the lower end—but well-suited for light server tasks and Docker containers. You can find it on Amazon or direct with a few more configuration options on their website directly (compensated affiliate links).
My review unit included a Crucial-branded NVMe drive pre-installed in slot 4. All the bundled storage options appear to use Crucial, which I’ve been using myself for years.
The drives insert vertically and make contact with a heat pad that connects to a large central heatsink. That design does a noticeably better job at keeping drives cool than other compact NAS units I’ve tested recently. The slots themselves are mostly 1x PCIe interfaces, with slot 4 being the faster with a 2x lane slot. Even so, it maxed out around 1.3 GB/s with the Crucial PCIe 4.0 SSD out of that slot. The rest are slower but the bottleneck in most NAS applications will be the network, not the drive speeds.
This unit includes two 2.5Gb Ethernet ports, which gave me around 200–250 MB/s throughput over the network during my tests. It’s unlikely you’ll saturate even the slowest drive slot with this kind of networking. Internally, the device has 12GB of soldered Crucial RAM. That’s not expandable, but for NAS and home server purposes, it’s enough. There’s also an Intel AX101 Wi-Fi 6 card if you’d rather go wireless.
Ports include two USB 3.2 Gen 2 ports (one USB-A, one USB-C), HDMI, USB 2.0, and a power jack—no external power brick here, just a built-in 45W supply. The casing is plastic but feels solid and clean, especially for a device that may sit out in the open. Video output supports 4K60, and I tested it with Ubuntu and Windows 11 Pro, both of which ran without issues. The hardware was properly recognized under Linux, and the preinstalled Windows license activated without a problem.
To test Unraid, I simply took the drives out of a GMKtec NAS I had been using and inserted them into this one. Everything came up immediately, including my external USB drive array. The only hiccup came from the USB-C port not playing nicely with my drive array; switching to the USB-A port resolved it, but I did lose my parity drive in the process. That seems more like a controller compatibility issue than a fatal flaw, though it’s something to be aware of.
I’m now considering moving entirely to solid-state storage, especially since this device gives me two more NVMe slots than the GMKtec box did. With Unraid’s parity setup, five slots can be used for storage and one for parity, giving me up to 20TB of usable space if I install 4TB drives across the board. I’ve only got about 9TB of data right now, so it’s feasible. 4TB NVME storage is pretty pricey at the moment so I’ll probably piece it together with smaller drives.
Power consumption is low—about 18–20 watts idle with five NVMe drives installed and a couple of Docker containers running. Under load, like when writing large files or playing back a Plex stream with hardware-accelerated 4K HDR tone mapping, it edged up to around 26-30 watts. Hardware transcoding works just fine in Unraid as long as you remember to add /dev/dri to your container configuration. I detail that in the video.
Temperatures on the drives were impressive. A WD cache drive that previously idled at 69°C in the GMKtec unit now hovers around 50–51°C in this one. Under load, those numbers go up a bit, but they’re still dramatically better than before. It’s a testament to the improved passive cooling inside this unit. The fan is also whisper-quiet—much less noticeable than my spinning external drives.
One downside is thermal throttling under extended CPU load. A 3DMark Time Spy stress test resulted in a fail grade, with performance dropping around 16%. That’s shouldn’t impact most NAS workloads, but I wouldn’t use this for anything that demands sustained CPU performance.
Overall, this mini PC has proven to be a capable, efficient little box for self-hosting in tight spaces. I’ve got some reconfiguring to do now—time to dig through my parts bin and see which higher-capacity NVMe drives I can consolidate onto this unit. It feels like there’s real potential to go all solid-state here and simplify the setup.