Testing Methods and System Setup

Testing Methods

Graphics card testing has become the most hotly debated issue in the hardware enthusiast community recently.  Because of that, testing graphics cards has become a much more complicated process than it once was.  Where before you might have been able to rely on the output of a few synthetic, automatic benchmarks to make your video card purchase, that is just no longer the case.  Video cards now cost up to $500 and we want to make sure that we are giving the reader as much information as we can to aid you in your purchasing decision.  We know we can’t run every game or find every bug and error, but we try to do what we can to aid you, our reader, and the community as a whole.

With that in mind, all the benchmarks that you will see in this review are from games that we bought off the shelves just like you.  Of these games, there are two different styles of benchmarks that need to be described.

The first is the “timedemo-style” of benchmark.  Many of you may be familiar with this style from games like Quake III; a “demo” is recorded in the game and a set number of frames are saved in a file for playback.  When playing back the demo, the game engine then renders the frames as quickly as possible, which is why you will often see the “timedemo-style” of benchmarks playing back the game much more quickly than you would ever play the game.  In our benchmarks, the FarCry tests were done in this matter: we recorded four custom demos and then played them back on each card at each different resolution and quality setting.  Why does this matter?  Because in these tests where timedemos are used, the line graphs that show the frame rate at each second, each card may not end at the same time precisly because one card is able to play it back faster than the other — less time passes and thus the FRAPs application gets slightly fewer frame rates to plot.  However, the peaks and valleys and overall performance of each card is still maintained and we can make a judged comparison of the frame rates and performance.

The second type of benchmark you’ll see in this article are manual run throughs of a portion of a game.  This is where we sit at the game with a mouse in one hand a keyboard under the other, and play the game to get a benchmark score.  This benchmark method makes the graphs and data easy to read, but adds another level of difficulty to the reviewer — making the manual run throughs repeatable and accurate.  I think we’ve accomplished this by choosing a section of each game that provides us with a clear cut path. We take three readings of each card and setting, average the scores, and present those to you.  While this means the benchmarks are not exact to the most minute detail, they are damn close and practicing with this method for many days has made it clear to me that while this method is time consuming, it is definitely a viable option for games without timedemo support.

The second graph is a bar graph that tells you the average framerate, the maximum framerate, and the minimum framerate.  The minimum and average are important numbers here as we want the minimum to be high enough to not affect our gaming experience.  While it will be the decision of each individual gamer what is the lowest they will allow, comparing the Min FPS to the line graph and seeing how often this minimum occurs, should give you a good idea of what your gaming experience will be like with this game, and that video card on that resolution.

Drivers – Detonator 61.45

For our testing of the eVGA and reference 6800 GT cards, we used the NVIDIA Detonator 61.45 drivers.  Below are the driver settings we used throughout our tests, with the exception being the Anti-Aliasing and Anisotropic Filtering levels were changed where noted in the benchmarks.

eVGA e-GeForce 6800 GT Video Card Review - Graphics Cards 134

Vertical sync forced to the off position and the default value for “Image settings” was used.

eVGA e-GeForce 6800 GT Video Card Review - Graphics Cards 135

Both the trilinear and anisotropic optimizations were turned off to force the original game designers methods on the graphics cards.

eVGA e-GeForce 6800 GT Video Card Review - Graphics Cards 136

The eVGA e-GeForce 6800 GT retail card uses the same core clock and memory frequencies as the reference board as well.

Test System Setup

Video Card Test System Setup


Intel P4E @ 3.4 GHz


Intel 875DP Motherboard

Power Supply 

Antec 460 watt


2x512MB Corsair PC3200LL DDR

Hard Drive

40GB 7200RPM Western Digital EIDE

Sound Card

Creative Labs Live!

Video Card

eVGA e-GeForce 6800 GT Retail
NVIDIA GeForce 6800 GT
ATI X800 Pro

Video Drivers

NVIDIA 61.45
ATI Catalyst 4.7

DirectX Version

DX 9.0b

Operating System

Windows XP w/ Service Pack 1

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