Originally released in November 2017, HDMI 2.1 is arguably the most significant upgrade to the HDMI standard. Its bandwidth increases to 48 Gbps, which is 2.67 times the bandwidth of HDMI 2.0 (18 Gbps).
HDMI 2.0 and its newer cousin, HDMI 2.0b, have remained the most common versions of the HDMI standard for the past five years. Since 2019, the TV industry has been the first to pave the way for HDMI 2.1, which has become the standard on 8K Ultra HD TVs. The best 4K TVs also feature HDMI 2.1 in large numbers, and the next generation of gaming consoles, the PS5 and the Xbox Series X, due out in late 2020, also come with HDMI 2.1.
Because HDMI 2.1 is still a relatively new standard, you don't have to worry too much about the obsolescence of your 4K TV, streaming media player, or 4K Ultra HD Blu-ray player. But if you're planning on buying a high-end TV, make sure it comes with an HDMI 2.1 port, especially for movies and games.
HDMI 2.1 Specification Overview
- Connector physical specifications are the same as today's HDMI, with downward compatibility.
- Needs better shielding performance and cables with better EMI resistance.
- Bandwidth increased to 48 Gbps, 2.67 times higher than HDMI 2.0 (18 Gbps).
- Can carry video signals up to 10K@120fps.
- New audiovisual features: dynamic HDR and enhanced audio return channel (eARC).
- New gaming features: Variable Refresh Rate (VRR), Quick Frame Transport (QFT), Auto Low Latency Mode (ALLM), and Quick Media Switching.
- New video compression format: VESA DSC 1.2a.
More Bandwidth
As you increase the resolution of a video signal, the amount of data in that signal increases. The data volume of a 3,840x2,160 4K Ultra HD signal sent via HDMI is about four times that of an HD 1,920x1,080 signal. If you think of cables as pipes, you'll need pipes larger than those for 1080p to carry 4K signals. The same is true if you increase the frame rate: you need a larger pipe to transmit images at 60 frames per second instead of 24fps at the same resolution. More images per second means more data.
HDMI 2.1, 2.0 and 1.4 Bandwidth Comparison
The HDMI 2.1 standard increases the maximum uncompressed bandwidth that HDMI cables can handle to 48 Gbps and the maximum compressed bandwidth to at least 128 Gbps. While it will be some time before devices actually need that much bandwidth, the 18 Gbps of HDMI 2.0 has become a bottleneck in many cases. For example, transmitting a 4K@60Hz video signal with 4:4:4 chroma sub-sampling and 10-bit depth requires 20.05 Gbps of bandwidth, which is more than an HDMI 2.0 connection alone can provide.
Higher Resolution and Refresh Rate
The increased bandwidth of HDMI 2.1 supports video signal transmission up to 10K (10240x4320), covering most of the new resolutions, chroma sampling, bit depths and refresh rates that an HDMI 2.1 single-pair connection allows. For video signals above 4K@60Hz, the required bandwidth is greater than HDMI 2.0's 18 Gbps, so 8K TVs and high-end 4K TVs should be equipped with an HDMI 2.1 interface; otherwise it is necessary to connect multiple HDMI 2.0 cables (if the TV supports it).
New Features
Dynamic HDR
HDR (High Dynamic Range) is one of the most welcome picture-quality improvements since the 4K era, promising higher contrast and richer colors. The most common HDR format today is HDR10, which uses metadata recording the actual brightness level of the content to tell the TV how to restore color and contrast. In HDR10 there is only one set of this metadata per video, but actual brightness varies from scene to scene, so contrast restoration for each scene is inevitably biased. With dynamic HDR, the metadata of each scene and frame can differ to better fit a particular scene or frame. Advanced formats such as Dolby Vision, HDR10+ and Advanced HDR already use dynamic metadata over existing HDMI connections but require additional bandwidth; HDMI 2.1 adds a new channel for dynamic metadata transmission, which completely solves this problem.
Enhanced Audio Return Channel (eARC)
Since version 1.4, the Audio Return Channel (ARC) has been part of the HDMI standard. ARC lets you connect all source devices (Blu-ray players, game consoles, etc.) directly to your TV and then use an HDMI cable to transmit sound to a soundbar, receiver, or other sound system—or connect to the soundbar first and pass video to the TV via HDMI—greatly simplifying cabling. You can also use the TV remote to control the soundbar or other audio equipment instead of a dedicated remote.
