Saturday, August 13th 2016

Samsung to Optical-Shrink NVIDIA "Pascal" to 14 nm

It looks like NVIDIA won't skip the 14 nm process en route sub-10 nm nodes, despite meeting its energy-efficiency targets with the 16 nm FinFET node, after all. The company has reportedly concluded talks with Samsung Electronics, to optically-shrink its current GeForce "Pascal" architecture down to the newer 14 nanometer FinFET node, by Samsung. It's unclear as to whether specific upcoming (unreleased) Pascal GPUs will get 14 nm treatment, or if this is a series-wide die-shrink of the kind NVIDIA did between the 65 nm and 55 nm nodes. The Samsung-made 14 nm "Pascal" GPUs should enter production before year-end.
Source: Reuters
Add your own comment

45 Comments on Samsung to Optical-Shrink NVIDIA "Pascal" to 14 nm

#1
RejZoR
I think they'll wait for a refresh of the series...
Posted on Reply
#2
ZeppMan217
RejZoRI think they'll wait for a refresh of the series...
11** or...Ti?
Posted on Reply
#3
RejZoR
Ti most likely. Probably GTX 1060Ti and 1080Ti. Similar to how they've done it in the past.
Posted on Reply
#4
R00kie
GTX 1080+ anyone? :laugh:

throwback to 9800 GTX and 9800GTX+
Posted on Reply
#5
ppn
Shrinking the GTX 1080 to 250 sq.mm GTX 1160 more likely. GTX 1060 can't be shrink-ed without dropping the 192 bit. The 1170/1180 could be the shrink of pascal titan on 256 bit.
Posted on Reply
#6
Shou Miko
Haven't we seen this kinda before with Samsung doing some work then TSMC does it better like for Apple's iphone the TSMC made chip was faster then Samsung? o_O
Posted on Reply
#7
jabbadap
Does not make much sense, 14nm lpp and 16nm FF+ are quite the same size. There's not much die size savings on that shrink. Maybe they will make pascal tegras on samsungs 14nm LPP, but I don't see them moving their whole gpu line from TSMC. Maybe they try something like gp107 or gp108 on samsungs manufacturing nodes...
Posted on Reply
#8
dj-electric
This is great news. I love reading something like this.
Samsung's phenomenal line, i thought were preserved for AMD only.
Posted on Reply
#10
Basard
OMFG SATURDAY NEWS! YES!!

This is like Saturday morning cartoons for us!

I love that picture too.... That's what it looks like inside the Terminator's brain!
Posted on Reply
#11
64K
Makes me wonder if TSMC is having yield problems on 16nm like they did when they went from 40nm to 28nm. That could in part explain the shortages but I think most of the shortage of 1070 and 1080 is due to their extremely good performance and a lot of people want them. Maybe Nvidia is finally fed up with TSMC.
Posted on Reply
#12
hardcore_gamer
Most probably for GP100. It makes sense to reduce the power consumption as large quantities of GP100 is expected to be used with upcoming Power 9 servers.
Posted on Reply
#13
GC_PaNzerFIN
Probably mobile Tegra chips based on Pascal architecture. Why would you try making high power chips on low power Samsung/GloFo 14nm finfet process like AMD did.
Posted on Reply
#14
dj-electric
GloFo is garbage, don't put it in the same sentence with samsung or TSMC
Posted on Reply
#15
GC_PaNzerFIN
Dj-ElectriCGloFo is garbage, don't put it in the same sentence with samsung or TSMC
GloFo finfet is from Samsung so i will put it in same sentence. Until I see a 250W chip made on Samsung process... and doing any better at it than GloFo.

Here it is from the horse's mouth: globalfoundries.com/newsroom/press-releases/2014/04/17/samsung-and-globalfoundries-forge-strategic-collaboration-to-deliver-multi-sourced-offering-of-14nm-finfet-semiconductor-technology
Posted on Reply
#16
qubit
Overclocked quantum bit
Now that die shrinks are getting ever harder, I'm not surprised that they are taking this step.

If I remember correctly, at around 3-7nm you reach the size of single atoms, so we're close to the limit now.
Posted on Reply
#17
64K
qubitNow that die shrinks are getting ever harder, I'm not surprised that they are taking this step.

If I remember correctly, at around 3-7nm you reach the size of single atoms, so we're close to the limit now.
No, atoms are much smaller that that.

hyperphysics.phy-astr.gsu.edu/hbase/particles/atomsiz.html

But the lower process nodes are introducing more difficulties.

Probably new materials other than silicon will help.

arstechnica.com/gadgets/2015/02/intel-forges-ahead-to-10nm-will-move-away-from-silicon-at-7nm/
Posted on Reply
#18
Chaitanya
Probably outcome of Samsung bringing nvidia to knees. Also it seems like when it comes to fab Samsung is now ruling the roost.
Posted on Reply
#19
Steevo
Seems like an TSMC supply issue, it will be interesting to see what happens to the power consumption.
Posted on Reply
#20
ZeDestructor
ppnShrinking the GTX 1080 to 250 sq.mm GTX 1160 more likely. GTX 1060 can't be shrink-ed without dropping the 192 bit. The 1170/1180 could be the shrink of pascal titan on 256 bit.
While it does look that way, I find it extremely unlikely they'll go under 280mm². Sure, the name says 14nm, but a lot of the die isn't at 14nm (some smaller, like a fin on 22nm Intel FinFET being a mere 8nm wide, or a channel length of 28nm, on the very same node). You can read more about how node sizes have become essentially marketing here spectrum.ieee.org/semiconductors/devices/the-status-of-moores-law-its-complicated
puma99dk|Haven't we seen this kinda before with Samsung doing some work then TSMC does it better like for Apple's iphone the TSMC made chip was faster then Samsung? o_O
ChaitanyaProbably outcome of Samsung bringing nvidia to knees. Also it seems like when it comes to fab Samsung is now ruling the roost.
Err.. wat? nV and Samsung don't compete against each other in any market besides SoCs (Tegra vs Exynos). Ans for best fab, that would arguably be Intel who are on their second generation of FinFETs, with extra tweaks beyond what was done with the first 14nm chips.
SteevoSeems like an TSMC supply issue, it will be interesting to see what happens to the power consumption.
That was my first thought as well.
GC_PaNzerFINProbably mobile Tegra chips based on Pascal architecture. Why would you try making high power chips on low power Samsung/GloFo 14nm finfet process like AMD did.
Possible, but you can do some very interesting custom tweaks to your chips to let them clock really high even on the same node (mostly because at this point the limiter on clock speeds is either chip layout (literally where the transistors are and how they're wired), or much more commonly these days, power), or lower power on the same node. Just compare Tonga vs Tahiti (R9-285 vs R9-280 in particular), or Fermi GF100 vs GF110 (GTX 480 vs GTX 570 in particular), both of which both lowered power (measurably so in both cases.. according to AnandTech at least) and increased performance through higher clockspeeds and/or fewer disabled clusters on higher-power SKUs.
Posted on Reply
#21
cdawall
where the hell are my stars
ppnShrinking the GTX 1080 to 250 sq.mm GTX 1160 more likely. GTX 1060 can't be shrink-ed without dropping the 192 bit. The 1170/1180 could be the shrink of pascal titan on 256 bit.
What are you talking about? They can shrink the die and keep the bus size.
Posted on Reply
#22
HD64G
jabbadapDoes not make much sense, 14nm lpp and 16nm FF+ are quite the same size. There's not much die size savings on that shrink. Maybe they will make pascal tegras on samsungs 14nm LPP, but I don't see them moving their whole gpu line from TSMC. Maybe they try something like gp107 or gp108 on samsungs manufacturing nodes...
Exactly what I think this move is to mean. Cost/chip might be another factor for nVidia desicion. Capacity a 3rd one. Who knows? All will be clear once we learn the products of the collaboration.
Posted on Reply
#23
FR@NK
Based on that picture it looks like a mobile chip.
Posted on Reply
#24
jabbadap
FR@NKBased on that picture it looks like a mobile chip.
Krhm, if you mean that picture from this article, that's the tesla P100.
Posted on Reply
#25
FR@NK
jabbadapKrhm, if you mean that picture from this article, that's the tesla P100.
Ah thanks.
Posted on Reply
Add your own comment
Dec 11th, 2024 19:46 EST change timezone

New Forum Posts

Popular Reviews

Controversial News Posts