GIGABYTE Radeon RX 6800 XT 16G Gaming Graphic Card
- Graphics Processing: Radeon™ RX 6800 XT
- Core Clock: Boost Clock* : up to 2250 MHz
- Game Clock* : up to 2015 MH
- Memory Clock: 16000 MHz
- Memory Size: 16 GB
- Memory Type: GDDR6
- Memory Bus: 256 bit
- Memory Bandwidth (GB/sec): 512 GB/s
- Card Bus: PCI-E 4.0 x 16
- Digital max resolution: 7680x4320
- Multi-view: 4
- Card size: L=267 W=120 H=49 mm
- PCB Form: ATX
- DirectX: 12 Ultimate
- OpenGL: 4.6
- Recommended PSU: 750W
- Power Connectors: 8 pin*2
- Output: DisplayPort 1.4a *2 HDMI 2.1 *1 USB Type-C *1
- Warranty: 3 Years
DirectX® Raytracing
Experience Photorealistic Games
DirectX Raytracing (DXR) adds a new level of graphics realism to games through effects like reflections, shadows, and global illumination at real-time frame rates on AMD Radeon™ RX 6000 series graphics, thanks to AMD RDNA™ 2 architecture support for hardware-accelerated raytracing.
FEATURES
Powered by AMD Radeon™ RX 6800 XT
RDNA™ 2 Architecture with Hardware Raytracing
High Performance 4K Gaming
AMD FidelityFX
Radeon™ Anti-Lag
Modern Display Technologies
PCI Express 4.0 Support
16GB GDDR6 256-bit memory interface
Features HDMIx1/ DisplayPortx2 /USB-Cx1
System power supply requirement: 750W
FidelityFX Contrast Adaptive Sharpening
Brings out the Details
Contrast Adaptive Sharpening (CAS) helps increase visual quality by enabling stunning visual sharpness with optional upscaling to restore detail lost after Temporal Anti-Aliasing (TAA) is applied. For games that support FidelityFX CAS, turning off Radeon™ Image Sharpening in Radeon™ Software to avoid over-sharpening is recommended.
FidelityFX Ambient Occlusion
More Realistic Geometry Shading
AMD RDNA™ architecture-optimized Combined Adaptive Compute Ambient Occlusion (CACAO) dynamically and efficiently helps improve the appearance of objects based their exposure to ambient light.
FidelityFX Variable Shading
Get Performance with Quality
Uses AMD RDNA™ 2 architecture support for variable rate shading (VRS) to analyze luminance and motion of frames to help optimize rendering for optimal performance without lowering the image quality.
