Hi all, I think it's some great news regarding TR4 socket future, It seems that all 4 dies are real 8 core dies, so TR is actually Epyc 32C/64T Cpu . So I think it's great news for any one considering to buy X299 or X399, with AMD X399 we gonna have 32C CPU 99.99%, So it's better investvet for such high cost HEDT MB. http://www.guru3d.com/news-story/amd-ryzen-threadripper-does-have-four-8-core-dies-(32-cores).html der8auer video:
This actually makes sense to me. Damaged/defective zeppelins get used this way and it makes for no wasted silicon.
If you don't tell the enemy about your secret weapon- the enemy will not get ready for it... So, AMD prefers let Intel brag about their 18C CPU . Plus, as we all know- 4 8C dies with huge surface area is much easyer to cool , so even if they release 4X Rysen 1700 dies it will not have a problem regarding cooling even at ~250W.
Makes sense, 2 good dies for operation, 2 dead ones for structural support. Reduces waste management costs.
At this point it really doesn't matter. 18core or 32core epyc will be unobtainable for 99% of gamers/general use. Actually it doesn't make any sense. Highly doubt these are totally dead dies, more likely they are at least half usable(4cores). The good dies could have be rearranged differently or even IHS for the 'structural' support.
Of course they are 'dead', why waste time when you are purposely putting on dies for 'structural support'. They are purposely done like that. The idea is that originally those dies are possibly usable. Which is why it doesn't seem to make sense.
Makes sense. As der8auer said, there is no reason why they would use dummy silicon for structural support, instead of modifying the IHS. The two "dummy dies" are probably non-functional zeppelins, and Threadripper is probably binned Epyc CPUs. This makes me very happy, since it opens up the very real possibility of a 24-core or 32-core Threadripper for X399.
Of course the 32C epyc will be unobtainable for 99% of gamers/general use, but think about professional who needed to build huge Server PC and sold their House for 2 high core Xeons for production, I have build PC based on 2X Xeon 2670 (16C/32T Total) and it was very expensive and huge, but soon thanks to AMD back in the race we could build nice Silent little 32C/64T Monster PC at much cheaper price!. I am sure this will have great positive effect on content creators that want to produce high quality work but they don't have ~50K $$$ to build Intel Xeon PC's.
Unless the defect in those chips was something that you couldn't segment off. Like if you have a failed core, you could cut the core and turn it into something else - but if the failure is on a part of the CPU that you can't bin into something else, what do you do with it? You turn it into a lego.
So maybe as soon as next year we could see a 32 core threadripper. Interesting year this has been for computer tech. Now bring Vega 11 and redeem yourself AMD!
@Agent-A01 Why are you in such a hissy fit over this? Seriously, why does it matter whether the dies are real or just blanks? Whether some of the dies are partially functional is also irrelevant - they must have deemed enough of the dies are of adequate functionality to release a product up-to-spec. For example, if all the cores are functional but the L3 has a big defect, those cores are basically junk. The fact of the matter is, they're non-functional dies; they function only as dummies.
I knew they were lying about that when they said they were dummy dies. It makes no sense unless you have near 100% yields.
I've never seen anything about "blanks"...that's your invention, completely... Quoting from HH's article: I personally think that AMD simply might be is re-using failed dies here and simply called them dummies as in non-working dies. Of course, HH is spot on. "Dummies" *cough* doesn't necessarily mean "blank plastic cubes", etc.--that would be ridiculous and cost a lot of money to produce inserted into a shipping cpu--a whole lot more $ than a simple die disablement process in a batch. Whether the cores are failed in that they wouldn't verify, or they verify fine, it's a trivial matter in the production process to render as many cores as you like completely inoperable for purposes of meeting SKU demand, etc.--turning them into "dummies"--inert silicon. Cores like this cannot be "turned on" later. I always marvel at how people turn molehills into mountains. This, really, doesn't even qualify as a "molehill," imo.
Logic says that they are dies that did not qualify even for a 4core else they loose money except if their yields are that good that they have 0 non qualifying dies then they will be forced to use as support working dies ... oh the humanity!
Well, to be fair, I thought this as well. My original thought was that they were disabled or non-functional dies, but then AMD said they were just spacers and I got the impression that they were blank pieces of silicon. In hindsight, I think AMD was just trying to make it clear that those dies could not be activated or used, as some people were speculating about this possibility.
Watch his first delid video, he stated clearly that AMD said threadripper used 2 ryzen dies. He delids and sees 4 dies. AMD reinstates differently by saying they are 'blank' 'dummy'. By blank I do not mean it's plastic lol. Anyways, they should have just moved the two 8 die modules to the middle, makes no sense to add 'dummy' dies for structural support.