The latest 14nm FinFET process and AMD's advanced power, gating and clocking technologies for a superior cool and quiet working experience. 4th FinFET GCN (14nm) architecture incorporating exciting features and improvements for virtually every area of a graphics chip. Look for: increased levels of performance, smooth VR, seamless support for next-gen gaming monitors and CPU-free game streaming or recording.
The next generation of AMD Eyefinity multi-monitor control technology is here, featuring all-new support for stereo 3D, universal bezel compensation and brand new display configurations.
AMD Eyefinity 2.0 enables:
With a full 30-bit display pipeline producing more than one billion colors (10-bit per RGB component). The GPRO series is ideally suited for applications that benefit from accurate color reproduction and superior visual quality.
4K (4096x2160pixel) support for ultra-high-resolution display devices and advanced configurations through DisplayPort 1.2 (and up) and AMD Catalyst drivers ensures future-forward compatibility for advanced workflows.
Stretch display resolutions to prevent bezel interference and image distortion when displaying a single large image across multiple displays.
DisplayPort 1.2 simultanesously outputs multiple, independent audeo streams.
With a Dual Link DVI output and DisplayPort output, multi-view enables two 3D displays with independent display resolution, refresh rate, and display roataion settings
The AMD LiquidVR™ technology is by no means limited to games – the benefits are applicable to a broad spectrum of VR applications, including interactive cinema, education, simulation, telepresence, social media, medical, real estate e-commerce and much more.
No stuttering. No tearing.
AMD FreeSync™ 4technology allows a compatible graphics card and monitor to dynamically change frame rates for the optimum display quality without tearing or stuttering.
AMD TrueAudio technology is all about giving sound engineers the freedom to follow their imaginations and the power to make their video sound as convincing as they look.
VCE is AMD’s dedicated fixed-function H.264/AVC video coding engine. One of its primary advantages is that it allows offloading the huge video compression workload to such a co-processor, leaving most of the CPU cycles available for other types of processing. Besides, it exhibits the advantages that come with fixed-function hardware implementations such as the increased throughput and reduced power consumption. Efficient hardware and software architectures of digital video compression systems play a primary role in the enablement of many wide-spread applications such as transcoding, video editing, video conferencing, video streaming, as well as emerging technologies such as wireless display and cloud gaming.
VSR allows users to render at higher resolutions and then rescales them down to a lower native display resolution. Using this, you can get quality that rivals up to 4K, even on a 1080p display.
With AMD XConnect™ technology, external GPU enclosures configured with AMD Graphics can easily connect and disconnect to a compatible ultrathin notebook or 2-in 1 over Thunderbolt™ 3 at any time - just like a USB flash drive.
Whether you are streaming a video, video chatting with a friend, playing a clip via Windows media player, or watching DVD/Blu-ray, you are most probably leveraging AMD’s Unified Video Decoder (UVD) seamlessly. The HD content became popular with the rise of Blu-ray and HD-DVD. It came with huge amounts of data to be compressed, which led to the development of computationally extensive standards such as H.264 and VC1. UVD is a dedicated hardware video decoding block that facilitates the full, bit-accurate decoding of VC-1 or H.264.
Frame Rate Targeting Control is a feature that enables users the ability to set a maximum target frame rate when playing an application in fullscreen exclusive mode. The benefits that this may allow a user to experience are reduced GPU power consumption (great for games running at frame rates much higher than the display refresh rate) and reduce heat generation and as a result of that, lower fan speed/noise on the graphics card.
目前GPRO 8200/6200/4200/2200顯卡皆為DisplayPort(或Mini DisplayPort)輸出介面設計，因此在螢幕的最佳搭配選用為具備有DisplayPort輸入介面的螢幕；若要搭配使用非DisplayPort輸入介面的螢幕，則必需選購額外的訊號轉換器以配合使用，並且需了解其介面所能支援的最大解析度規格等資訊！