With the release of Alder Lake less than a week away and the "Lakes" thread having turned into a nightmare to navigate I thought it might be a good time to start a discussion thread solely for Alder Lake.
2 die SPR would make more sense with 28-30 cores and 4 memory channels.AIDA64 receives preliminary support for Alder Lake-X HEDT/Xeon CPUs - VideoCardz.com
Intel rumored to launch Alder Lake-X series Release notes for the upcoming AIDA64 Extreme Beta suggest Intel might be developing a new X-Series CPUs. There are still more question than answers about Intel’s upcoming Intel HEDT platform. Officially, Intel has not mentioned its Sapphire Rapids-X...videocardz.com
There's going to be an Alder Lake-X. Videocardz speculates that it's a single die Sapphire Rapids on LGA 1700. Not the Sapphire Rapids-X HEDT.
Edit: Xeon only most likely but it is possible there is a Core product. Intel obviously needs to slice and dice the Sapphire dies as much as possible.
2 die SPR would make more sense with 28-30 cores and 4 memory channels.
Thats the one that interests me. Single-die SPR does not move a thing to me as an owner of Skylake-x cpu, granted faster cores, but if that was enough, i could have got 5950x long-time ago. Or now probably better to wait for Zen 4 In such case cause of its. V-cache advantage.2 die SPR would make more sense with 28-30 cores and 4 memory channels.
For my personal use, I would love a dual socket SPR based workstation with 56+ cores per socket. Or a similar Threadripper/EPYC. I don’t know if either company or any OEM is planning on offering such a (liquid cooled) workstation configuration.Thats the one that interests me. Single-die SPR does not move a thing to me as an owner of Skylake-x cpu, granted faster cores, but if that was enough, i could have got 5950x long-time ago. Or now probably better to wait for Zen 4 In such case cause of its. V-cache advantage.
Out of sheer curiosity, what's your use case for a dual socket workstation? The inter socket latency makes me not like them. You must have some application specifically written to take advantage of dual socket configurations and NUMA.For my personal use, I would love a dual socket SPR based workstation with 56+ cores per socket.
For my personal use, I would love a dual socket SPR based workstation with 56+ cores per socket. Or a similar Threadripper/EPYC. I don’t know if either company or any OEM is planning on offering such a (liquid cooled) workstation configuration.
Yes,I’m aware. I’ve a query out to them, but haven’t heard back from our rep.Dell sells Xeon workstations that can be configured to dual processor... but it only goes up to Skylake and friends right now. They probably will refresh it with SPR.
I build bioinformatics pipelines in Python, R, and Java. Usually I can break work into tons of smaller tasks that each run using 1-8 cores. More cores the better to get the overall work done faster. Currently only one of my Xeon workstation is dual socket (2x12 cores), and so far I haven’t bothered writing NUMA aware code. I’m using 64 core Threadripper for most of my current development.Out of sheer curiosity, what's your use case for a dual socket workstation? The inter socket latency makes me not like them. You must have some application specifically written to take advantage of dual socket configurations and NUMA.
Couldn't you use something like XtreemOS with cheaper nodes to consolidate their processing power in a distributed fashion?I build bioinformatics pipelines in Python, R, and Java. Usually I can break work into tons of smaller tasks that each run using 1-8 cores. More cores the better to get the overall work done faster. Currently only one of my Xeon workstation is dual socket (2x12 cores), and so far I haven’t bothered writing NUMA aware code. I’m using 64 core Threadripper for most of my current development.
I have access to large clusters at the university, but I prefer a powerful multiprocessor at my desk. I’ve never heard of XtreemOS, but I’ll check it out. Thanks!Couldn't you use something like XtreemOS with cheaper nodes to consolidate their processing power in a distributed fashion?
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You could get maybe three or four high end PC's for the same price. Even ECC if you stick to AMD.
Or it could be like the move to thermal paste in Ivy Bridge which caused overheating for some people.Been awhile since I heard about the socket warp issue. Guess we'll just have to see how many Alder Lake sockets start to fail? Might never happen.
Or it could be like the move to thermal paste in Ivy Bridge which caused overheating for some people.
All I know is this project only run on linux, and I have applied all patches and updates. But that is certainly reasonable. My kernel is not updated to 5.16 that supports alder lake, its not approved for cinnamon mint. I will look again for any updates its now finds, thanks !Could be missing some hardware acceleration packages.
Its not available as an approved version. Here are my choices, and I am at the top:@Markfw
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Do a manual upgrade or use the app for kernel's. Unlock the ADL!!!!
BTW I'm n 5.17.3 right now but, 5.18.rcX works as well.
Its not available as an approved version. Here are my choices, and I am at the top:
View attachment 60291
OK, I did your procdure, but it still looks the same after a reboot. How do I verify its running 5.17.3 ?