Our testing methods
As ever, we did our best to deliver clean benchmark numbers. Tests were run at least three times, and we've reported the median result.
Our test systems were configured like so:
|Chipset||Intel X79 Express|
|Memory size||16GB (4 DIMMs)|
DDR3 SDRAM at 1600MHz
|Memory timings||9-9-11-24 1T|
|Chipset drivers||INF update
Rapid Storage Technology Enterprise 184.108.40.20620
with Realtek 220.127.116.1126 drivers
|Hard drive||Corsair F240 240GB SATA|
|Power supply||Corsair AX850|
|OS||Windows 7 Ultimate x64 Edition
Service Pack 1
DirectX 11 June 2010 Update
|GeForce GTX 570||ForceWare 301.34||732||950||1280|
|GeForce GTX 590||ForceWare 301.24||608||854||3072|
|GeForce GTX 670||ForceWare 301.34||915||980||2048|
|GeForce GTX 680||ForceWare 301.33||1006||1502||2048|
|GeForce GTX 680 + Zotac GTX 680||ForceWare 301.33||1006||1502||2048|
|GeForce GTX 690||ForceWare 301.33||915||1502||4096|
|Radeon HD 6990 AUSUM||Catalyst 12.4 + 12.3 CAP 1||880||1250||4096|
|Radeon HD 7950||Catalyst 12.4 + 12.3 CAP 1||800||1250||3072|
|Radeon HD 7970||Catalyst 12.4 + 12.3 CAP 1||925||1375||3072|
|Radeon HD 7970 + XFX HD 7970||Catalyst 12.4 + 12.3 CAP 1||925||1375||3072|
Thanks to Intel, Corsair, and Gigabyte for helping to outfit our test rigs with some of the finest hardware available. AMD, Nvidia, and the makers of the various products supplied the graphics cards for testing, as well.
Unless otherwise specified, image quality settings for the graphics cards were left at the control panel defaults. Vertical refresh sync (vsync) was disabled for all tests.
We used the following test applications:
Some further notes on our methods:
We used the Fraps utility to record frame rates while playing a 90-second sequence from the game. Although capturing frame rates while playing isn't precisely repeatable, we tried to make each run as similar as possible to all of the others. We tested each Fraps sequence five times per video card in order to counteract any variability. We've included frame-by-frame results from Fraps for each game, and in those plots, you're seeing the results from a single, representative pass through the test sequence.
We measured total system power consumption at the wall socket using a Yokogawa WT210 digital power meter. The monitor was plugged into a separate outlet, so its power draw was not part of our measurement. The cards were plugged into a motherboard on an open test bench.
The idle measurements were taken at the Windows desktop with the Aero theme enabled. The cards were tested under load running Skyrim at its Ultra quality settings with FXAA enabled.
We measured noise levels on our test system, sitting on an open test bench, using an Extech 407738 digital sound level meter. The meter was mounted on a tripod approximately 10" from the test system at a height even with the top of the video card.
You can think of these noise level measurements much like our system power consumption tests, because the entire systems' noise levels were measured. Of course, noise levels will vary greatly in the real world along with the acoustic properties of the PC enclosure used, whether the enclosure provides adequate cooling to avoid a card's highest fan speeds, placement of the enclosure in the room, and a whole range of other variables. These results should give a reasonably good picture of comparative fan noise, though.
We used GPU-Z to log GPU temperatures during our load testing.
The tests and methods we employ are generally publicly available and reproducible. If you have questions about our methods, hit our forums to talk with us about them.
|Samsung cranks SSDs to 2TB with the 850 Pro and EVO||42|
|TSMC's 10-nm FinFET process toddles towards validation||7|
|TR's July 2015 mobile staff picks||19|
|Minecraft: Story Mode gets a trailer, more details at Minecon||9|
|Microsoft plans phased rollout for Windows 10 upgraders||25|