The NVIDIA GeForce GTX 980 Ti Review
by Ryan Smith on May 31, 2015 6:00 PM ESTPower, Temperature, & Noise
As always, last but not least is our look at power, temperature, and noise. Next to price and performance of course, these are some of the most important aspects of a GPU, due in large part to the impact of noise. All things considered, a loud card is undesirable unless there’s a sufficiently good reason – or sufficiently good performance – to ignore the noise.
As the GM200 flagship card, GTX Titan X gets the pick of the litter as far as GM200 GPUs go. GTX Titan X needed fully-functional GM200 GPUs, and even then needed GPUs that were good enough to meet NVIDIA’s power requirements. GTX 980 Ti on the other hand, as a cut-down/salvage card, gets second pick. So we expect to see these chips be just a bit worse; to have either functional units that came out of the fab damaged, or have functional units that have been turned off due to power reasons.
| GeForce GTX Titan X/980 Voltages | ||||
| GTX Titan X Boost Voltage | GTX 980 Ti Boost Voltage | GTX 980 Boost Voltage | ||
| 1.162v | 1.187v | 1.225v | ||
Looking at voltages, we can see just that in our samples. GTX 980 Ti has a slightly higher boost voltage – 1.187v – than our GTX Titan X. NVIDIA sometimes bins their second-tier cards for lower voltage, but this isn’t something we’re seeing here. Nor is there necessarily a need to bin in such a manner since the 250W TDP is unchanged from GTX Titan X.
| GeForce GTX 980 Ti Average Clockspeeds | |||
| Game | GTX 980 Ti | GTX Titan X | |
| Max Boost Clock | 1202MHz | 1215MHz | |
| Battlefield 4 |
1139MHz
|
1088MHz
|
|
| Crysis 3 |
1177MHz
|
1113MHz
|
|
| Mordor |
1151MHz
|
1126MHz
|
|
| Civilization: BE |
1101MHz
|
1088MHz
|
|
| Dragon Age |
1189MHz
|
1189MHz
|
|
| Talos Principle |
1177MHz
|
1126MHz
|
|
| Far Cry 4 |
1139MHz
|
1101MHz
|
|
| Total War: Attila |
1139MHz
|
1088MHz
|
|
| GRID Autosport |
1164MHz
|
1151MHz
|
|
| Grand Theft Auto V |
1189MHz
|
1189MHz
|
|
The far more interesting story here is GTX 980 Ti’s clockspeeds. As we have pointed out time and time again, GTX 980 Ti’s gaming performance trails GTX Titan X by just a few percent, this despite the fact that GTX 980 Ti is down by 2 SMMs and is clocked identically. On paper there is a 9% performance difference that in the real world we’re not seeing. So what’s going on?
The answer to that is that what GTX 980 Ti lacks in SMMs it’s making up in clockspeeds. The card’s average clockspeeds are frequently two or more bins ahead of GTX Titan X, topping out at a 64MHz advantage under Crysis 3. All of this comes despite the fact that GTX 980 Ti has a lower maximum boost clock than GTX Titan X, topping out one bin lower at 1202MHz to GTX Titan X’s 1215MHz.
Ultimately the higher clockspeeds are a result of the increased power and thermal headroom the GTX 980 Ti picks up from halving the number of VRAM chips along with disabling two SMMs. With those components no longer consuming power or generating heat, and yet the TDP staying at 250W, GTX 980 Ti can spend its power savings to boost just a bit higher. This in turn compresses the performance gap between the two cards (despite what the specs say), which coupled with the fact that performance doesn't scale lineraly with SMM count or clockspeed (you rarely lose the full theoretical performance amount when shedding frequency or functional units) leads to the GTX 980 Ti trailing the GTX Titan X by an average of just 3%.
Starting off with idle power consumption, there's nothing new to report here. GTX 980 Ti performs just like the GTX Titan X, which at 74W is second only to the GTX 980 by a single watt.
Meanwhile load power consumption is also practically identical to the GTX Titan X. With the same GPU on the same board operating at the same TDP, GTX 980 Ti ends up right where we expect it, next to GTX Titan X. GTX Titan X did very well as far as energy efficiency is concerned – setting a new bar for 250W cards – and GTX 980 Ti in turn does just as well.
As was the case with power consumption, video card temperatures are similarly unchanged. NVIDIA’s metal cooler does a great job here, keeping temperatures low at idle while NVIDIA’s GPU Boost mechanism keeps temperatures from exceeding 83C under full load.
Finally for noise, the situation is much the same. Unexpected but not all that surprising, the GTX 980 Ti ends up doing a hair worse than the GTX Titan X here. NVIDIA has not changed the fan curves or TDP, so this ultimately comes down to manufacturing variability in NVIDIA’s metal cooler, with our GTX 980 Ti faring ever so slightly worse than the Titan. Which is to say that it's still right at the sweet spot for noise versus power consumption, dissipating 250W at no more than 53dB, and once again proving the mettle of NVIDIA's metal cooler.
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TheJian - Tuesday, June 2, 2015 - link
Depends on where you live. At a mere 3hrs per day (easy if more than one person uses it) at 270w difference even Ocing it, you end up $75 a year savings in a place like Australia. That ends up being $300 if you keep it for 4yrs, more if longer. In 15+ states in USA they are above 15c/kwh (au is 25.5c) so you'd save ~$45+ a year (at 15.5, again 14 quite a bit above this), so again $180 for 4yrs. There are many places around the world like AU.Note it pretty much catches 295x2 while doing it Oced. It won't put off as much heat either running 270w less, so in a place like AZ where I live, this card is a no brainer. Since I don't want to cool my whole house to game (no zoned air unfortunately), I have to think heat first. With Electricity rising yearly here, I have to think about that over the long haul too. TCO is important. One more point, you don't deal with any of the "problem" games on NV where crossfire does nothing for you. Single chip is always the way to go if possible.
If you have a kid, they can blow those watts up massively during summer for 3 months too! WOW users can do 21hrs on a weekend...LOL. I'd say Skyrim users etc too along with many rpg's that will suck the life out of you (pillars, witcher 3, etc). A kid can put in more time in the summer than an adult all year in today's world where they don't go out and play like I used to when I was a kid. You're shortsighted. Unless AMD's next card blows this away (and I doubt that, HBM will do nothing when bandwidth isn't the problem, as shown by gpu speeds giving far more than ocing memory), you won't see a price drop at all for a while either.
If rumors are true about $850-900 price for AMD's card these will run off the shelf for a good while if they don't win by a pretty hefty margin and drop the watts.
mapesdhs - Wednesday, June 3, 2015 - link
Add Elite Dangerous, Project Reality, GTA V, the upcoming Squad and various other games to your list of titles which one tends to play for long periods if at all.Ian.
Deacz - Wednesday, June 3, 2015 - link
860€ atm :(ddferrari - Sunday, June 14, 2015 - link
I guess you're one of those people who care more about specs than actual performance. Seriously, is 28nm just too big for ya? It's 3% slower than the fastest gpu on Earth for $650, and you're whining about the transistor size... get a life.Michael Bay - Sunday, May 31, 2015 - link
I`d much rather read about 960...pvgg - Sunday, May 31, 2015 - link
Me too...Ryan Smith - Sunday, May 31, 2015 - link
And you will. Next week.just4U - Sunday, May 31, 2015 - link
The 960 is a underwhelming overpriced product.. I'd be more interested in a Ti variant if I was looking to buy right now.. but no.. although that 980Ti is tempting, I'd never purchase it without seeing what AMD is doing next month.Oxford Guy - Monday, June 1, 2015 - link
"The 960 is a underwhelming overpriced product."There you go, Michael, you've read about it.
PEJUman - Sunday, May 31, 2015 - link
GM206 based 960xx? or a further cut on GM204? ;)My gut feel tells me it would be GM204 based: I am guessing ~3B trans on GM206 on a very mature 28nm process should be relatively doable without much defects.