AMD plans to add HDMI 2.2 support to their upcoming graphics cards built on the GFX13 architecture. Tech insider Kepler_L2 shared details about these future Radeon GPUs that will feature much faster display connections. The new HDMI 2.2 standard can handle up to 80 Gbps of data compared to current HDMI 2.1 speeds of 48 Gbps. These graphics cards belong to AMD's next UDNA series which replaces their current RDNA lineup. The company continues working on display technology improvements for gamers and content creators.
HDMI 2.2 brings major upgrades for high-resolution gaming and video playback. Gamers can expect support for 4K at 480 frames per second and 8K at 240 frames per second with compression. The standard also handles 10K resolution at 120 frames per second and 12K at the same refresh rate. Content creators will benefit from uncompressed 8K video at 60 frames per second with full color depth. Virtual reality and augmented reality applications will see doubled bandwidth capacity every few years.
AMD's UDNA graphics cards with GFX13 architecture won't arrive until 2026 at the earliest. The company continues developing these advanced display features ahead of the official launch. Current RDNA 4 graphics cards still use older HDMI 2.1 connections with lower bandwidth limits.
HDMI 2.2 brings major upgrades for high-resolution gaming and video playback. Gamers can expect support for 4K at 480 frames per second and 8K at 240 frames per second with compression. The standard also handles 10K resolution at 120 frames per second and 12K at the same refresh rate. Content creators will benefit from uncompressed 8K video at 60 frames per second with full color depth. Virtual reality and augmented reality applications will see doubled bandwidth capacity every few years.
AMD's UDNA graphics cards with GFX13 architecture won't arrive until 2026 at the earliest. The company continues developing these advanced display features ahead of the official launch. Current RDNA 4 graphics cards still use older HDMI 2.1 connections with lower bandwidth limits.
