The NVIDIA GeForce GTX 980 Review: Maxwell Mark 2
by Ryan Smith on September 18, 2014 10:30 PM ESTThe Test
For the launch of GTX 980 we are using NVIDIA’s press beta drivers for the card, release 334.07 beta. This is the first (semi) public release of the R343 driver set, and coinciding with the release of the Maxwell 2 architecture it also marks the end of support for NVIDIA’s D3D10 GPUs: the 8, 9, 100, 200, and 300 series. Beginning with R343 these products are no longer supported in new driver branches and have been moved to legacy status.
Meanwhile as noted earlier, due to time constraints and hardware problems today we are focusing our coverage on the GTX 980. Next week we will be looking at GTX 980 SLI (hint: it’s fast) and GTX 970.
And on a testing note, as is standard for our reviews we are using our reference Radeon R9 290X for our 290X benchmarks. For this reason we are including both the standard and uber modes for the sake of clarity and completeness. The temperature throttling that the reference 290X suffers from is basically limited to just the reference 290X, as the non-reference/custom models use open air coolers that have no problem dissipating the 290X’s full heat load. Both modes are included for this reason, to demonstrate how a reference 290X performs and how a custom model would perform. At this point you can still buy reference 290X cards, but the vast majority of retail cards will be of the non-reference variety, where the 290X Uber mode’s results will be more applicable.
CPU: | Intel Core i7-4960X @ 4.2GHz |
Motherboard: | ASRock Fatal1ty X79 Professional |
Power Supply: | Corsair AX1200i |
Hard Disk: | Samsung SSD 840 EVO (750GB) |
Memory: | G.Skill RipjawZ DDR3-1866 4 x 8GB (9-10-9-26) |
Case: | NZXT Phantom 630 Windowed Edition |
Monitor: | Asus PQ321 |
Video Cards: |
AMD Radeon R9 290X AMD Radeon R9 290 AMD Radeon HD 7970 AMD Radeon HD 6970 NVIDIA GeForce GTX 980 NVIDIA GeForce GTX 780 Ti NVIDIA GeForce GTX 780 NVIDIA GeForce GTX 770 NVIDIA GeForce GTX 680 NVIDIA GeForce GTX 580 |
Video Drivers: |
NVIDIA Release 344.07 Beta AMD Catalyst 14.300.1005 Beta |
OS: | Windows 8.1 Pro |
274 Comments
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Frenetic Pony - Friday, September 19, 2014 - link
This is the most likely thing to happen, as the transition to 14nm takes place for intel over the next 6 months those 22nm fabs will sit empty. They could sell capacity at a similar process to TSMC's latest while keeping their advantage at the same time.nlasky - Friday, September 19, 2014 - link
Intel uses the same Fabs to produce 14nm as it does to produce 22nmlefty2 - Friday, September 19, 2014 - link
I can see Nvidia switching to Intel's 14nm, however Intel charges a lot more than TSMC for it's foundry services (because they want to maintain their high margins). That would mean it's only economical for the high end cardsSeanJ76 - Friday, September 19, 2014 - link
What a joke!!!! 980GTX doesn't even beat the previous year's 780ti??? LOL!! Think I'll hold on to my 770 SC ACX Sli that EVGA just sent me for free!!Margalus - Friday, September 19, 2014 - link
uhh, what review were you looking at? or are you dyslexic and mixed up the results between the two cards?eanazag - Friday, September 19, 2014 - link
Nvidia would get twice as many GPUs per wafer on a 14nm process than 28nm. Maxwell at 14nm would blow Intel integrated and AMD out of the water in performance and power usage.That simply isn't the reality. Samsung has better than 28nm processes also. This type of partnership would work well for Nvidia and AMD to partner with Samsung on their fabs. It makes more sense than Intel because Intel views Nvidia as a threat and competitor. There are reasons GPUs are still on 28nm and it is beyond process availability.
astroidea - Friday, September 19, 2014 - link
They'd actually get four times more since you have to considered the squared area. 14^2*4=28^2emn13 - Saturday, September 20, 2014 - link
Unfortunately, that's not how it works. A 14nm process isn't simply a 28nm process scaled by 0.5; different parts are scaled differently, and so the overall die area savings aren't that simple to compute.In a sense, the concept of a "14nm" process is almost a bit of a marketing term, since various components may still be much larger than 14nm. And of course, the same holds for TSMC's 28nm process... so a true comparison would require more knowledge that you or I have, I'm sure :-) - I'm not sure if intel even releases the precise technical details of how things are scaled in the first place.
bernstein - Friday, September 19, 2014 - link
no because intel is using their 22nm for haswell parts... the cpu transition ends in a year with the broadwell xeon-ep... at which point almost all the fabs will either be upgraded or upgrading to 14nm and the rest used to produce chipsets and other secondary die'snlasky - Saturday, September 20, 2014 - link
yes but they use the same fabs for both processes