They said the enclosure should be available 'soon' for around $200, but they're still working out a few details with port placement, the power supply configuration, and PCIe slot layout. They are working on a new 2U mini ITX short-depth enclosure, and they sent me an early revision to use in this build: I needed to find a Mini ITX rackmount enclosure, and luckily I'd been in talks with MyElectronics after using their prototype 'blue' enclosure for a remote Pi cluster installation I was testing. ServeTheHome gave this motherboard a good review when it came out, and as long as things were in working order, it should still be a good choice, though less efficient and performant than a more expensive 2020s-era board. The price ($270 shipped) was low enough I could consider building with it, and it already included an older-but-not-too-power-hungry Xeon D SoC, two 10 Gbps Ethernet ports, and 5 SATA-III connectors, the basic components I needed for the build. The motivation for this build came from finding this Supermicro X10SDV-4C-TLN2F Mini ITX motherboard. most people probably don't and would be better off with less SSD storage and more spinning disks (which are much cheaper per TB). most people don't have those things laying around, and (b) I will actually use that much low-latency storage. When looking at the price discrepancy, you have to realize (a) I already had the 8TB SSDs, from some projects I tested last year. Supermicro X10SDV-4C-TLN2F motherboard / Xeon D / Dual 10 GbE (eBay)ĭDR4-2133 ECC RAM (Didion Orf e-waste recycling) I'll show a price comparison of both (noting that my needs-tons of RAM and tons of SSD space-may not match your own, if the main goal is 'very fast SSD NAS'): Part This server build can be done with just as much capability (but a lower storage amount) on a more stringent budget, or can go 'all out' maxing out the RAM and SSD storage space. But I wanted to build my own NAS capable of saturating a 10 Gbps connection, and allowing extremely low latency data access over the network to my two Macs, both of which are connected to my wired 10 Gbps home network. Until now, I had them inside my 2.5 Gbps NAS. I had five 8TB Samsung QVO SSDs from my insane $5000 Raspberry Pi server build. Thus, the all-SSD high-performance edit NAS-on a budget. But as my video workflow matures, I find myself needing a central storage solution disconnected from my main workstation. And sometimes over the network using macOS's built-in file sharing. Therefore, I always used to edit videos off my local SSD drive. To edit footage well, the data not only needs to move fast (1 Gbps barely cuts it for a single stream), it also needs to have very low latency, otherwise Final Cut Pro (my editor of choice) lags quite a bit while scrubbing over dozens of video clips. A typical video I produce has between 30-60 minutes of raw footage (which brings the total project size up to around 100-200 GB). In a former life, I had a 2 TB backup volume and that stored my entire digital life-all my photos, family video clips, and every bit of code and text I'd ever written.Įvery minute of 4K ProRes LT footage (which is a very lightweight format, compared to RAW) is 3 GB of space.
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