Our initial review of nVidia's new GTX 960 looked at ASUS' Strix model of the card, a $210 unit with a custom cooler and an emphasis on silence. We declared the GTX 960 a formidable competitor at the price range, remarking that its software-side support and power made it a primary choice for 1080p gaming. AMD's closest competitor is the R9 280 – a powerful alternative for users who don't mind a bit higher TDP and less frequent driver updates – priced closer to $170 after rebates.
As nVidia continues to push SLI as an actionable configuration, the question of SLI compatibility with video games is raised once again. Not all games adequately support SLI and, for this reason, we've historically recommend a single, more powerful GPU in opposition to two mid-range options in SLI.
Part of our daily activities include extensive graphics benchmarking of various video cards and games, often including configuration, OC, and performance tweaks. As part of these benchmarks, we publish tables comparing FPS for the most popular graphics cards, ultimately assisting in determining what the true requirements are for gaming at a high FPS.
Although our test methodology includes extra steps to ensure an isolated, clean operating environment for benchmarking, the basics of testing can be executed on everyday gaming systems. This article explains how to benchmark your graphics card, framerate (FPS), and video games to determine whether your PC can play a game. Note that we've simplified our methodology for implementation outside of a more professional environment.
We're revisiting our Evolve benchmark, now that the game has fully launched and (some) drivers have been updated. Our previous Evolve bench tested the game's beta, but disclaimed heavily that the beta meant a lack of driver support and software-side optimization. The return benchmark uses much of the same methodology and represents the same game as previously, so this article will be a bit shorter in length.
Save CPUs, all components manufacturing in the PC hardware industry is centered upon the same core philosophy: Design a PCB, design the aesthetics and/or heatsink, and then purchase the semiconductor or Flash supply and build a product. In the case of video cards, board partners are responsible for designing aftermarket coolers (and PCBs, if straying from reference), but purchase the GPU itself from AMD or nVidia. The “hard work” is done by the GPU engineers and fabrication plants, but that's not to trivialize the thermal engineering that board partners invest into coolers.
When our readers ask us which version of a particular video card is “best,” we have to take into account several use-case factors and objective design factors. Fully passive cooling solutions may be best for gaming HTPCs like this one, but can't be deployed for higher-TDP graphics hardware. That's where various aftermarket designs come into play, each prioritizing noise, dissipation, and flair to varying degrees.
It's official: The price gap between the GTX 960 and GTX 970 is large enough to drive a Ti through. NVidia's new GeForce GTX 960 2GB graphics card ships at $200, pricing it a full $50 cheaper than the GTX 760's launch price. The immediate competition would be AMD's R9 285, priced almost equivalently.
NVidia's GTX 960 is intended to target the market seeking the best video card for the money – a segment that both AMD and nVidia call the “sweet spot” – and is advertised as capable of playing most modern games on high settings or better. The GTX 960 uses a new Maxwell GPU, called the GM206, for which the groundwork was laid by the GTX 980's GM204 GPU. In our GTX 980 review, we mentioned that per-core performance and per-watt performance had increased substantially, resulting in a specs listing that exhibits a lower core count and smaller memory interface. AMD has leveraged these number changes in recent marketing outreaches, something we'll discuss in the conclusion.
This GeForce GTX 960 review tests the new ASUS Strix 960 video card against the 970, 760, R9 285, & others. The benchmark analyzes GTX 960 FPS performance in titles like Far Cry, Assassin's Creed, EVOLVE, and other modern titles. The GTX 960 is firmly designed for 1080p gaming, which is where the vast majority of monitors currently reside.
In Left 4 Dead-like form, Evolve reintroduces the concept of monster vs. humans multiplayer gameplay with high-fidelity graphics. 2K's soon-to-be released “Evolve” has already been analyzed by us a few times, but now we're returning to specifically benchmark the game's PC FPS performance.
This Evolve GPU FPS benchmark tests the game on Very High (max) and Medium settings, pitting some of the best graphics cards against one another. On our Evolve graphics bench, we tested the GTX 980 vs. the GTX 780, 770, 750 Ti, & R9 290X vs. the R9 285, 270X, R7 250X, & HD 7850. Once we got past the FPS limitations (resolved easily, as explained in an upcoming guide), testing Evolve was fairly easy and unrestrictive.
NOTE: This game is in BETA. Although it is near completion, results could be significantly improved prior to launch as GPU manufacturers move to finalize drivers specific to Evolve. The same is true as 2K continues to implement optimization patches.
Judging by our content traffic trends, there's an express user interest in external graphics solutions as employed by laptops. These solutions allow desktop-quality graphics output without restricting the laptop in non-gaming tasks; that is, the GPU is connected via docking station, granting full mobility of the portable when used for usual commuting or work tasks.
Among the final pieces of our coverage from MSI, the GS30 Shadow laptop and its accompanying docking system remind us of a SilverStone/ASUS creation from last year: The XG02 external video card enclosure for laptops.
MSI's GS30 Shadow 13.3" gaming laptop includes a PCI-e enabled dock for external graphics card hardware, supporting AMD & nVidia devices. The GS30 can fit everything up to a Titan Black, hosts a 3.5" HDD bay for games storage, and pushes all video content to an external display once docked. This means that the external video card does not re-pipe the graphics back into the 13.3" screen, instead requiring a peripheral monitor. It's a normal docking station in this fashion, it just includes external GPU support for high-end gaming at home.
The international Consumer Electronics Show kicks off next week in Las Vegas, NV. As part of our annual attendance, we book dozens of meetings in advance with major manufacturers and parts vendors; nVidia, AMD, and Intel are almost always our staples. This time, however, nVidia wasn't booking GeForce meetings and noted that it will be handling things a little differently this year.