SAPPHIRE Radeon™ R9 Nano

Frame Rate Target Control

Frame Rate Target Control (FRTC) enables users to set a target maximum frame rate when playing an application in full screen mode; the benefit being that FRTC can reduce GPU power consumption (great for games running at frame rates much higher than the display refresh rate) and therefore reduce heat generation and fan speeds/noise on the graphics card.

Frame Rate Target Control caps performance not only in 3D rendered in-game scenes, but also in splash screens, loading screens and menus, where frame rates can often run needlessly into the hundreds of FPS. Users might wish to set a very high cap just to limit wasteful FPS like that seen in menus and such, while still taking advantage of the responsiveness given by FPS well beyond 60.

DirectX® 12

DirectX® 12 is a new, “console-like” graphics API from Microsoft® that empowers game developers with more direct and obvious control of PC hardware. This direct or “explicit” control better exposes the hardware resources of AMD Radeon™ GPUs to yield higher hardware throughput and, ultimately, more performance for users. To put it simply: much more efficient hardware through smarter software! At the discretion of a game developer, this superior efficiency can be spent on higher framerates, lower latency (VR), lower power consumption, better image quality, or some calculated balance of all four. In any scenario, gamers stand to benefit greatly from choosing AMD hardware to run their favorite DirectX® 12 game.

AMD Freesync technology

No stuttering. No tearing. Just gaming.

AMD FreeSync™ technology allows a compatible graphics card and monitor to dynamically change frame rates for the optimum display quality without tearing or stuay.

Industry-Standard Displayport

Freesync uses industry-standard displayport Adaptive-Sync Eliminates screen tearing without all the usual lag and latency

  • Synchronizes the refresh rate of a compatible monitor to the frame rate of your content, however much it varies
  • Monitor partners are validating with drivers from AMD now 

AMD Eyefinity Technology

Multidisplay technology for gaming, productivity and entertainment

We are taking you beyond the boundaries of traditional PC displays. AMD Eyefinity technology expands the traditional limits of desktop computing by multiplying your screen area. With multiple monitors, games become more immersive, workstations become more useful and you become more productive (an average of 42% more productive according to one study).

Take your PC games to the next level of reality and immersion. Most modern games look great on three screens, and only AMD Radeon™ graphics offer you the ability to play across five screens for an eye-popping gaming experience. Other combinations and configurations with up to six screens work too.1 Create your dream display.

AMD Crossfire™  

Harness the power of multiple GPUs

AMD CrossFire™ technology is the ultimate multi-GPU performance gaming platform. Unlocking game-dominating power, AMD CrossFire™ harnesses the power of two or more discrete graphics cards working in parallel to dramatically improve gaming performance.1 AMD CrossFire™ technology ready graphics cards fit practically every budget. With the flexibility to combine two, three or four GPUs, AMD CrossFire™ technology is the perfect solution for those who demand extreme performance.

Introducing AMD LiquidVR

LiquidVR™ is an AMD initiative dedicated to making VR as comfortable and realistic as possible by creating and maintaining what’s known as “presence” — a state of immersive awareness where situations, objects, or characters within the virtual world seem “real.”  Guided by close collaboration with key technology partners in the ecosystem, LiquidVR™ uses AMD’s GPU software and hardware sub-systems to tackle the common issues and pitfalls of achieving presence, such as reducing motion-to-photon latency to less than 10 milliseconds. This is a crucial step in addressing the common discomforts, such as motion sickness, that may occur when you turn your head in a virtual world and it takes even a few milliseconds too long for a new perspective to be shown.   

 

High Bandwidth Memory

Introducing HBM, a new type of memory chip with low power consumption, ultra-wide communication lanes and a revolutionary new stacked configuration. HBM’s vertical stacking and fast information transfer open the door for truly exciting performance in innovative form factors. And GPU applications are just the start – look for HBM’s superior power efficiency and space savings to spark industry-wide innovation.

Revolutionary HBM breaks the processing bottleneck

HIGH BANDWIDTH

Performance well beyond DDR4/GDDR5/LPDDR4 HIGH BANDWIDTH

POWER EFFICIENCY

>3X the performance per watt of GDDR5

SMALL FORM FACTORS

94% less PCB surface area than GDDR5

INNOVATION

New interconnects, interposer & DRAM type designed by AMD

AMD TrueAudio

Your games now sound as good as they look

The expectations of gamers have never been higher. Graphics quality and processing speed have advanced rapidly, and the games of today are light years ahead of those from just a few years ago. But advancements in game audio have been more sporadic and less widely adopted.

Sound is a critically important part of the immersive experience for gamers and sound engineers are eager to advance their art, but they haven’t enjoyed the same kind of attention that continually drives graphics improvements. Until now.

What it means for gamers

By leveraging AMD TrueAudio technology, game developers now have the ability to recreate acoustic environments with incredible fidelity, and to bring them to every gamer. With AMD technology inside all the most popular “next-generation” gaming platforms, including the PC, gamers across the entire industry will finally enjoy the best audio today’s technology can offer.

Enhanced Unified Video Decoder 3 (UVD 3)

Watch the hottest Blu-ray movies or other HD content at full 1080p (and beyond !) display resolution. Enjoy a feature rich video experience with enhanced Unified Video Decoder 3 (UVD 3), offloading the bulk of the video decoding tasks from the CPU to the GPU allowing for a cooler, quieter and more balanced system.