64-Core Threadripper and ultra-HEDT X599 Coming End of 2019

odditory

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Did you think AMD was done with Threadripper? Well, if that’s what you thought, I have some good news. I have confirmation that the company is preparing an absolutely monstrous 64-core/128-thread Threadripper part for launch in Q4 2019. AMD’s largest HEDT processor right now is the 2990WX which tops out at 32-cores. This is nothing to sneeze at and is already the highest core HEDT part around but because the world can’t get enough of these cores, AMD is planning to launch a 64-core variant late Q4 2019.

My source was pretty clear on the timeline and said AMD plans to introduce this before the year is over because they have something else planned for CES next year. You should start seeing motherboard leaks related to the X599 (or whatever it ends up being called) during Q4 2019 and the CPUs should be on the shelves at the very latest by January 2020; although this is a worst case scenario and the plan right now is to ship by mid-Q4 2019.

Grain of salt

upload_2019-6-14_16-45-53.png
 
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AMD's current flagship Threadripper processor is actually called the "2990WX", not the "W2990X".

Like veryone else, I'm wondering how much such a beat will end up costing and what the clocks will look like.
 
AMD's current flagship Threadripper processor is actually called the "2990WX", not the "W2990X".

Like veryone else, I'm wondering how much such a beat will end up costing and what the clocks will look like.
Significantly lower clocks - that much we can be sure of. Honestly, this sounds like it would be misaligned with the portion of the HEDT market looking for versatility - including competitive single-thread performance.

Disclaimer: did not read the article.
 
Hmm.

I had started considering getting a Ryzen, but Maybe I'll just wait for TR then.

I don't need those monstrous numbers of cores. I just want more PCIe lanes.

If there is a higher clocked 8-16 core TR, that's what I would likely be going for.
 
I really want to just see clock for clock comparisons between the new 16 core desktop unit and the original 16 core Threadripper. Same base and boost speeds - I want to see how much of a difference the new process/node and the I/O die have made.
 
I really want to just see clock for clock comparisons between the new 16 core desktop unit and the original 16 core Threadripper. Same base and boost speeds - I want to see how much of a difference the new process/node and the I/O die have made.

Trying to find out exactly how much of an IPC increase Zen 2 has is precisely one of the things I'd like to do. However, I do not have a 1950X. I'd have to find one cheap before I'd get one.
 
Trying to find out exactly how much of an IPC increase Zen 2 has is precisely one of the things I'd like to do. However, I do not have a 1950X. I'd have to find one cheap before I'd get one.

Not to mention the effect that the cache sizes have on performance.
 
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Intel will have to go MCM to even think of competing with this. However this high core count workstation market will be a low volume market. Intel may just wait it out till 2021 when they get 7nm working to even try to counter this.
 
Now this is the kind of info I'd like to see! I really hope it is out and available by the holiday season , though I wished it would be in stores a bit earlier (ie Sept/Oct) but if they can pull off Nov/Dec arrival that would be way preferable to having to wait until Jan2020 thanks to holiday deals and purchases.

While I know there is a place for the 64c/128t previously named "WX" style Threadrippers, I am wondering what they will offer for "X" models instead, ideally with less cores (Ie somewhere between 16 and 32?) but high all-core turbo OCs. It will be interesting to see if the per core performance, clock rate, and OC ability of Threadripper will be equal or perhaps even better than the Ryzen 3950X ? Likewise, besides PCI-E 4.0 and 64 lanes, I wonder what sort of upgrades will be in X599.
 
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64 cores will be a beast for most of the workloads I’m thinking of. Gotta wait for benchmarks but I have a few older dual Xeon builds that are due for replacement early 2020 that this could be a nice part for.
 
"Now it's just getting stupid. And really, what's the point? They've gone crazy with cores (I call her Crazy Lisa) and remember that Cyberpunk will only use four to eight".
--Intel VP

Well, to be fair, Intel really hasn't gone crazy at all for quite some time. They've stagnated with the Core i series. A few little things here and there, but overall nothing mind blowing. AMD is at least trying to push the envelope a bit. I'm all for it. What's the point? At [H], there is no such thing as overkill. If there is more to be had, we'll take it. From overclocking to pencil tricks to unlock to increasing RAM timings.... what's the point? Because they can. Cyberpunk can only use 4-8? Ok. Intel used to look towards the future. They used to say "Cyberpunk can only use 4-8, but we're going to build a CPU for the NEXT games that will use more.". Games can't use more than that? Games used to not be able to use more than 2 cores... Given the physics, AI, VR, weather, environment, etc. in games, more cores will make sense. For others, more VM's on a single machine. For office use? An Intel dual or quad core will do the job just fine. But, they could also get by with a 6 year old Intel CPU and be just fine.

Intel has gone soft. Come on, Intel. Let's see you one-up them.
 
Finally something that can run Gentoo :b

I do say that compiling chromium on my R7 2700 gentoo based PVR / fileserver still takes ages however most other software including the kernel is pretty quick with 16 threads and the 1TB Samsung 970 MVMe drive. I hope I get as long of use out of the 2700 as I did the core2quad it replaced last week..
 
Too many cores :cautious: Naaaaaa :D
For the right price in a year or 2 i will be more than happy to update my 12/24 core TR with a 32/64 core one. (y) as long as i can still put it to good use on my X399 mobo.
 
Too many cores :cautious: Naaaaaa :D
For the right price in a year or 2 i will be more than happy to update my 12/24 core TR with a 32/64 core one. (y) as long as i can still put it to good use on my X399 mobo.

That's only going to be a good idea if you either need that many cores or the clocks are high enough to actually make it an upgrade for you. IPC alone isn't going to do that at the same or worse clocks.
 
well my 64 core cpus are at 1.4ghz so lets see if they can beat that :p it would be nice to see some interconects so you could run 2-4 of these chips on one board 512 threads would be fun. but im not sure if that would be possible with the way amd does its many core chips
 
it would be nice to see some interconects so you could run 2-4 of these chips on one board 512 threads would be fun

EPYC will have dual configs. TR will never get more than 1 socket, it does not make a lot sense to have such of a configuration since there already is a crazy number of threads for a workstation.
 
  • Number of cores in consideration, the clocks will be low. So it probably won't be able to run Crysis.
The 3950x has a 105w tdp...

2990wx:
Code:
# of CPU Cores: 32
# of Threads: 64 
Max Boost Clock: 4.2GHz 
Base Clock: 3GHz 
Thermal Solution: Not included 
Default TDP / TDP: 250W

Somehow, I don't think clockspeed will be hurt too much by cores/tdp. Worst case, maybe a couple hundred mhz off the boost clock.
 
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Somehow, I don't think clockspeed will be hurt too much by cores/tdp.

It's dependent on the platform. If the power delivery is there to run 500W+ through the socket continuously, then whatever- get your chiller ready.

But those boards have to be built with the CPU in mind, and the CPU has to be built with the boards in mind.
 
This would have the IO chip feeding all four ram channels to all 64-cores solving the off-die memory latency issues of the current WX chips, right?
 
It's dependent on the platform. If the power delivery is there to run 500W+ through the socket continuously, then whatever- get your chiller ready.

But those boards have to be built with the CPU in mind, and the CPU has to be built with the boards in mind.
https://forum.level1techs.com/t/x399-threadripper-motherboard-vrm-topic/130232

And I forget which, but buildzoid recently looked at a board with a 14+2vrm iirc from GB with no doublers. Think it was an x570, though.

edit: linked rant video.
 
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EPYC will have dual configs. TR will never get more than 1 socket, it does not make a lot sense to have such of a configuration since there already is a crazy number of threads for a workstation.

At 64 cores I honestly don't see the point in not having multi socket configs. Either the program is massively parallel or it is not. At this point a second cpu would come very close to doubling the performance of a single so why not let costumers make that choice. And if it is multi socket it would become a viable contender in other markets as well.
 
At 64 cores I honestly don't see the point in not having multi socket configs. Either the program is massively parallel or it is not. At this point a second cpu would come very close to doubling the performance of a single so why not let costumers make that choice. And if it is multi socket it would become a viable contender in other markets as well.

They will have them- they're named 'Epyc'. :)
 
At 64 cores I honestly don't see the point in not having multi socket configs. Either the program is massively parallel or it is not. At this point a second cpu would come very close to doubling the performance of a single so why not let costumers make that choice. And if it is multi socket it would become a viable contender in other markets as well.


You have literally just described EPYC............
 
The problem with EPYC (when used as a workstation instead of TR) is that it has a lower frequency. I assume that the TDP is more restricted and there is considerably more margin for stability.
 
Hi. I'm stupid.

What would something like this be used for?

Anything you want.

The less smart ass version of an answer is that CPU's like this can be used for content creation applications, database work, 3D modeling / rendering, video editing and encoding, virtualization, and a ton of other things. Heavily threaded applications are used in various forms of scientific / medical research. The best part is you can do any combination of things at the same time.
 
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