Differences
between H.265 and H.264
A codec is an encoder and a decoder. An encoder compresses audio or video so it takes up less disk space. A decoder extracts audio or video information from the compressed file. Video and audio compression is a complex technical process, but the basic aim of a codec is quite straightforward:
A codec is an encoder and a decoder. An encoder compresses audio or video so it takes up less disk space. A decoder extracts audio or video information from the compressed file. Video and audio compression is a complex technical process, but the basic aim of a codec is quite straightforward:
(a) Reduce the size of the compressed media file as much
as possible, but...(b) Keep the quality of the decoded audio and video as good
as possible.
What is H.264?
H264 (aka MPEG-4 AVC) is currently a mainstream video compression format. It is widely used in Blu-ray discs, internet sources like videos in YouTube and iTunes Store, web software, and also HDTV broadcasts over terrestrial, cable and satellite.
H264 (aka MPEG-4 AVC) is currently a mainstream video compression format. It is widely used in Blu-ray discs, internet sources like videos in YouTube and iTunes Store, web software, and also HDTV broadcasts over terrestrial, cable and satellite.
What is H.265?
H.265 (also known as HEVC, short for High Efficiency
Video Coding, developed by the Joint
Collaborative Team on Video Coding (JCT-VC)) is a video compression
standard whose predecessor is H.264/MPEG-4 AVC. H.265 HEVC ensures to deliver
video quality identical to H.264 AVC at only half the bit rate, including
better compression, delicate image and bandwidth saving. It Support up
to 8K, Support up to 300 fps. It is likely to implement Ultra HD, 2K, 4K
for Broadcast and Online (OTT).
H.265 vs H.264: Differences between H.265 and H.264
In general, H.265 has several big advantages over H.264,
including better compression, delicate image and bandwidth saving. For more
detailed differences, please read H.265 vs H.264 comparison table.
4 pcs 2MP IP cameras for 1 month, stream: 4096Kbps.
H.264 IP camera need 42G×4×30=5T=1×3T+1×2T, so need 1 pc 3T and 1pc 2T HDD.
H.265 IP camera need 21G×4×30=2.5T, so need 1 pc 3T HDD only, save at least 1 pc 2T HDD cost.
H.264 IP camera need 42G×4×30=5T=1×3T+1×2T, so need 1 pc 3T and 1pc 2T HDD.
H.265 IP camera need 21G×4×30=2.5T, so need 1 pc 3T HDD only, save at least 1 pc 2T HDD cost.