In the realm of video encoding, a silent war rages on. Two codecs, H.264 and HEVC (H.265), vie for dominance. But what if I told you there's a new player in town, one that's poised to revolutionize the way we consume video content? Enter "UserHEVC Better," a concept that promises to upend the status quo.
Original HEVC had rigid “tiles” for parallel decoding, but they were inefficient. UserHEVC introduced Fluid Tiles . Instead of fixed grid squares, the encoder could draw arbitrary, amoeba-like shapes around moving objects. If a soccer ball flew across the screen, the codec created a single, flowing tile just for that ball, preserving its detail at 1/10th the bitrate. The background stayed at low resolution. The human eye never noticed the difference, but the bandwidth bill plummeted.
In the realm of video encoding, a silent war rages on. Two codecs, H.264 and HEVC (H.265), vie for dominance. But what if I told you there's a new player in town, one that's poised to revolutionize the way we consume video content? Enter "UserHEVC Better," a concept that promises to upend the status quo.
Original HEVC had rigid “tiles” for parallel decoding, but they were inefficient. UserHEVC introduced Fluid Tiles . Instead of fixed grid squares, the encoder could draw arbitrary, amoeba-like shapes around moving objects. If a soccer ball flew across the screen, the codec created a single, flowing tile just for that ball, preserving its detail at 1/10th the bitrate. The background stayed at low resolution. The human eye never noticed the difference, but the bandwidth bill plummeted. userhevc better