Ive read this about Dell in the past 1 mill chips I think you can check the adoredTV vid about intel monopolistic practices to back this - but i guess we both get the point.
It wasnt Dell but HP and 100k chips, btw Dell has been always completely sold out to Intel, prove is that they re the only ones that are not ready on day one of Rome launch, guess that they are more early infos providers for Intel than anything else...
There are actually four 2-channel memory controllers in the IOD. Different CCDs experience slightly different latencies in memory accesses behind each of the four controllers.All Rome chips should be UMA within a single socket, including the 64c chips. There's one memory controller to rule them all, and on the substrate bind them.
All Epyc 7002 have just one IOD. (Putting two into one wouldn't bring any benefit without changing the socket also.)Unless 64c EPYC has two I/O dice. I don't think it does.
Indeed. Though on one hand, in many usage scenarios the higher count of NUMA nodes in the system is not a problem; on the other hand, the slightly decreased memory performance in the default UMA configuration is of negligible effect in most common workloads.All Rome chips can also configured to 4 numa socket per chip, 2 chiplets have a quarter of IO die and two memory channels. Memory latency will improve ~25ns and memory throughput some 10%, but with additional hassle with more numa nodes.
Perhaps, but the actual implementation could be a bit more complex than that.Such a configuration option also tells that Rome IO chips is practically 4 Ryzen IO-chips linked together.
Yes.Just a Quick Question, all of the Epyc Rome systems are UMA right?
You can still not-SNC up to 4 nodes per Rome package.All Rome chips should be UMA within a single socket
All Rome chips can also configured to 4 numa socket per chip, 2 chiplets have a quarter of IO die and two memory channels. Memory latency will improve ~25ns and memory throughput some 10%, but with additional hassle with more numa nodes. Such a configuration option also tells that Rome IO chips is practically 4 Ryzen IO-chips linked together.
Why wouldn't it?Do you know if the new chipset for TR4 will use a Mirror Copy of the IO Chip like the X570 does for AM4?
One Fat IO Chiplet to rule them all indeed.
Do you know if the new chipset for TR4 will use a Mirror Copy of the IO Chip like the X570 does for AM4? No news on new SP3 chipsets yet?
There are actually four 2-channel memory controllers in the IOD. Different CCDs experience slightly different latencies in memory accesses behind each of the four controllers.
Indeed. Though on one hand, in many usage scenarios the higher count of NUMA nodes in the system is not a problem; on the other hand, the slightly decreased memory performance in the default UMA configuration is of negligible effect in most common workloads.
Actually x570 is interesting as AMD did not give details what it actually is. It's said to be Ryzen IO chip but build 14nm instead of 12nm. So did AMD plan to produce Ryzen IO-chip with 14nm and did do respin to 12nm and used already established 14nm lines to produce x570, or is x570 piece of Rome's IO chip? Because it's plain obvious that they won't establish own fab assembly for x570 when they could have used already in production 12nm IO-chip.
Which leads to what Threadripper IO-chip will be. Produced with 12nm it could provide higher memory clocks which are beneficial, but for economy reasons they would want to recycle Rome IO-chip.
Huh, didn't know you could force NUMA instead of UMA. That's kinda weird.
Not fair that you tempt me like this. 64 cores and motherboard for $5400......"Quite expensive single socket ATX combination". But luckily there is Intel competition, that is likely to offer a more comfortable price=performance ratio.
https://www.newegg.com/promotions/s...NC-YouTube-_-NeweggInsider-_-AMD-_-Supermicro
https://www.newegg.com/supermicro-m...813183689?Item=N82E16813183689&Tpk=13-183-689
I put myself on auto-notify for the 128 core 256 thread dual socket one..... I have the case and power supply required sitting idle. I just need memory I even have an extra nvme drive !Might need to have an intervention. Put the wallet down sir!
With this new design(Chiplets and Central IO) what would be the core limit per CPU of future Zen3/4/5(if they keep the 4ccx/8c chiplet)? For example if they get down to 5nm? according to this article: https://hothardware.com/news/tsmc-5nm-node-doubles-density-amd-ryzen-3000-7nm the density is nearly doubled, would that mean a 128 Core, 256 Threads single Socket Epyc CPU? 32 Core Mainstream CPU? Perhaps that would be restricted for Data Center CPUs as I can't even fathom such a massive CPU for mainstreamI put myself on auto-notify for the 128 core 256 thread dual socket one....
I put myself on auto-notify for the 128 core 256 thread dual socket one..... I have the case and power supply required sitting idle. I just need memory I even have an extra nvme drive !
With this new design(Chiplets and Central IO) what would be the core limit per CPU of future Zen3/4/5(if they keep the 4ccx/8c chiplet)? For example if they get down to 5nm? according to this article: https://hothardware.com/news/tsmc-5nm-node-doubles-density-amd-ryzen-3000-7nm the density is nearly doubled, would that mean a 128 Core, 256 Threads single Socket Epyc CPU? 32 Core Mainstream CPU? Perhaps that would be restricted for Data Center CPUs as I can't even fathom such a massive CPU for mainstream
Actually due to the price, I may get 2 64 core threadrippers, I already have all the motherboard and coolers. Just want an option....I knew you wouldn't be able to pass that up.
All Rome chips should be UMA within a single socket, including the 64c chips. There's one memory controller to rule them all, and on the substrate bind them.
Unless 64c EPYC has two I/O dice. I don't think it does.
Actually due to the price, I may get 2 64 core threadrippers, I already have all the motherboard and coolers. Just want an option....
I don't think they will be doing a 7nm IO chip at all since the reason for them not doing it along with the chiplet is that it will not scale linearly and very little gains will be obtain from 14/12nm processIt depends on how long it takes them to start doing the I/O on 7EUV instead of 14/12nm. I think that DDR memory stacking on the I/O die will come first.
I don't think they will be doing a 7nm IO chip at all since the reason for them not doing it along with the chiplet is that it will not scale linearly and very little gains will be obtain from 14/12nm process