In a perfect world, hardware experts would escort you on a shopping trip to pick up your next graphics card. We’d happily share our experience and tell you what to watch out for, what to avoid, and what you need from a GPU to squeeze the highest number of frames per second out of your gaming rig. Then again, would you really want to spend an afternoon with our gang of hardware-obsessed game addicts? The good news is you can receive the same benefit by reading our new buyer’s guide below. When you’re done, you don’t even have to shake our sweaty, mouse-worn hands.
The three most important traits of a graphics card: Model number, model number, and model number
The ultimate performance indicator of any graphics card is its model number, which represents a combination of graphics processor (GPU), clock rates, and memory bandwidth. The format is brand name + model number, i.e. Radeon R9 290X, or GeForce GTX 780 Ti.
The point is that a flashy factory-overclocked product with more RAM might look imposing, but you can bet it’s grossly outperformed by a plain-Jane specimen of the next higher model.
Therefore, when game performance is the goal you should buy the highest-tier graphics card you can afford. That’s within reason of course. Even if your budget is unlimited you shouldn’t need to spend over £150.00 to get a really fast specimen, and investing more than that provides lessening returns. Other components of your system can also be a limiting factor, see The platform: know your bottlenecks below.
Figuring out the relationship between graphics card models and performance will require research because model numbers aren’t intuitive and don’t compare well across different generations or brands, but the knowledge really pays off.
Memory: size doesn’t matter, but bandwidth is critical
Selecting a graphics card because it has more memory is like choosing an exotic car based on the size of the petrol tank. The unwarranted fixation on the amount of RAM is the biggest, most common mistake made by gamers looking to buy graphics hardware.
Unless you’re running incredibly large resolutions (three monitors in surround or a 4K display), you don’t have to be concerned about the quantity of RAM. If you’re playing at 1920×1080 or higher you should be looking for a high-end model in the first place, and that will come with more memory by default.
What you need to pay attention to is bandwidth. While bandwidth expectations will vary depending on a graphics card’s price and performance tier, always remember this: GDDR5 memory provides twice the bandwidth of DDR3 at the same clock rate. Since memory bandwidth is a significant performance bottleneck, choosing GDDR5 is a no-brainer.
Just remember this: when it comes to graphics cards, 1 GB of GDDR5 is infinitely preferable to 4 GB of DDR3.
The platform: know your bottlenecks
The graphics card is the most important component in a gaming PC, but the rest of the system is a factor, too. It’s important to be aware of your platform’s limitations.
Are you running an older dual-core CPU, like a Celeron, Pentium, Sempron, or Athlon X2? If so, it won’t keep up with the high-end graphics hardware, so don’t waste your money. Go for a mid-range card and save your hard earned dollars, or if you want the best game performance, upgrade to a modern processor that can handle four concurrent threads.
Your display is also an important factor. An older 1280×1024 monitor does not require the most expensive graphics hardware. Conversely, if you plan to run three 1920×1080 monitors in surround, a midrange model won’t give you the framerates you want in modern 3D games.
Know your goals, consider what types of games you expect to play, align them with the rest of the platform, and consider other upgrades if necessary.
Pairing up: two isn’t always better than one
Both AMD and Nvidia offer a feature that links multiple graphics cards together to increase performance. This feature is called CrossFire on Radeon graphics cards and SLI on GeForce cards.
It sounds like a great idea, but scaling performance by multiplying GPUs isn’t a smooth proposition. A second graphics card doesn’t increase performance by a factor of two; it’s more realistic to expect a 25-50% increase. That advantage diminishes even further with three- and four-GPU configurations. In addition, Multi-card setups can suffer from inconsistency, incompatibilities, and micro-stuttering. They also leech lots of power and can generate a lot of noise.
Don’t get us wrong, when it comes to triple-monitor resolutions and 4k displays, multi-GPU setups are a necessity. On a single 1920×1080 monitor, though, it’s overkill. Avoid the whole mess with a single high-end card.