Threadripper already accomplished all of this years ago. My TR2970WX has 24 cores/48 threads, 48 PCI-E lanes, and it supports ECC and non-ECC RAM. My AsRock Rack board has BMC support as well.
The Threadripper series was the perfect workstation CPU. I’ve had mine for a few years and it can handle anything I throw at it, it can easily transcode 2-3 4K videos while doing multiple other things.
It wasn’t cheap though, it was like $650 on sale, originally like a grand or so.
Acronyms, initialisms, abbreviations, contractions, and other phrases which expand to something larger, that I’ve seen in this thread:
Fewer Letters More Letters NAS Network-Attached Storage Plex Brand of media server package SSD Solid State Drive mass storage
3 acronyms in this thread; the most compressed thread commented on today has 14 acronyms.
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Not really. It’s just a normal Zen 4 CPU with some server features like ECC memory support.
The biggest downfall of these chips is they have the same 28 PCI-E lanes as any consumer grade Zen 4 CPU. Quite the difference between that and the cheapest EPYC CPUs outside the 4000 series.
You’re going to run in to some serious I/O shortages if trying to fit a 10gbe card, an HBA card for storage, and a graphics card or two and some NVME drives.
Not really. It’s just a normal Zen 4 CPU with some server features like ECC memory support.
I’m pretty sure all the Zen CPUs have supported ECC memory, ever since the first generation of them.
A lot of the Zen based APUs don’t support ECC. The next thing is if it supports registered or unregistered modules - everything up to threadripper is unregistered (though I think some of the pro parts are registered), Epycs are registered.
That makes a huge difference in how much RAM you can add, and how much you pay for it.
