Stream4S opinion on when H.265 will become the standard codec on the market.
Remember those frustrating times
when you were watching a video or a movie online and all of the sudden
you experienced a loss of quality? Now it can be possible to stream high-quality videos in congested network environments in a faster and virtuous way. Conceived to boost video streaming, High Efficiency Video Coding (HEVC), or H.265,
is a video compression standard designed to substantially improve
coding efficiency when compared to its precedent, the Advanced Video
Coding (AVC), or H.264. With an increasing growth of video streaming on
the Internet over popular websites such as Netflix and YouTube, and with
4K cameras gaining new ground in the market, a considerable amount of
storage and bandwidth is required. HEVC promises a 50% storage reduction
as its algorithm uses efficient coding by encoding video at the lowest
possible bit rate while maintaining a high image quality level.
As many of us, Stream4s
believes HEVC will revolutionize how video data is displayed, either
online, on television and even in the surveillance industry. With this
new format, image resolutions around 8192×4320 become possible to
display and stream. To demonstrate the incredible power of this codec, a
subjective video performance study was made between these two codecs to
understand how intensely is this bit reduction. The study showed the
bit reduction is inversely proportional to the video image quality,
where HEVC/H.265 presented a bit reduction of 52% at 480p and 64% at 4K
UHD when compared to H.264. Besides this outstanding bit reduction, when
compared to H.264, HEVC/H.265 delivers a significantly better visual
quality, when compressed to the same file size or bitrate.
Powerful Streaming — at what cost?
Even
though HEVC is already finalized, it is still not popular. Apart from
the fact that the codec is patented by various parties and it is
associated with high licensing fees, HEVC/H.265 comes with the trade-off
requiring almost 10x more computing power. This new technology is on
standby until the hardware market adapts to it, as it happened already
with H.264, launched in 2003 but only gaining popularity a few years
later. Hardware manufacturers are already starting to adjust their
products to support this new format to fulfill the intense market need.
Even though some softwares such as VideoLAN are capable to decode such
codec, software decoding, although more flexible, is not an option since
hardware decoding is usually faster and saves battery life
tremendously. Nevertheless, hardware still takes up valuable disc space
on either the CPU or GPU.
HVEC vs H.264 — a technical comparison
Both
codecs work by comparing different parts of a video frame in order to
find the ones that are redundant within the subsequent frames. These
areas are replaced with a short information, describing the original
pixels. What differs HEVC/H.265 from H.264 is the ability to expand the
size of these areas into bigger or smaller blocks, called coding tree
units (CTU) in the HEVC/H.265. The pattern CTU sizes can be from 4×4 to
64×64, whilst H.264 only allows a maximum block-size of 16×16 (CTU is
particular feature of HEVC). An improved CTU segmentation, as well as a
better motion compensation and spatial prediction require much more
signal processing capability for video compression, but has a
significantly less impact on the amount of computation needed for
decompression. Motion compensated prediction, another great progress in
HEVC/H.265, references blocks of pixels to another area in the same
frame (intra prediction) or in another frame (inter prediction).
As
mentioned above, CTU are one of the HEVC’s main coding tools. Apart
from this, the codec relies on paralleling processing computing
techniques to make it even faster and supports advanced extensions as
AVX/AVX2 and FMA3/FMA4. The individual rectangular regions that divide
the image are independent and enable parallel processing. Besides, HEVC
also has another feature that H.264 doesn’t possess: Wavefront Parallel
Processing (WPP), a sort of decision tree that grants a more productive
and effectual compression.
Several
other coding tools used in H.264 are continued in this new codec,
although with some slight, yet unprecedented, changes. The lossless data
compression entropy coding, the Context-adaptive binary arithmetic
coding (CABAC), is preserved in HEVC/H.265 but in a slightly upgraded
version. Intra prediction is another feature that suffered significantly
improvements in relation to H.264. HEVC stipulates 33 directional modes
while H.264 limits them to 8 and allows DC intra prediction as well as
planar prediction. An additional improvement is mainly due to the
Adaptive Motion Vector Prediction, the newest method for inter
prediction as it uses the picture information in a more concise way.
Thanks to the notably improvements that can be seen in this new codec, Stream4s is confident that HEVC/H.265 will become the universal standard codec, as soon as the hardware catches up.
HEVC/H.265
not only has a better visual quality at a low storage and bandwidth but
also a dexterously coding algorithm by encoding motion vectors with
much greater precision and minimal residual errors. Besides the
preeminent method used for inter prediction, this new codec also
presents an improved deblocking filter and sample adaptive offset to
reduce even more artifacts.
Another excellent tutorial on it:
https://youtu.be/Fawcboio6g4
Here is a YouTube demo. The difference is dramatic for h.265:
https://youtu.be/qL22L0mRSDs
Source: https://medium.com/advanced-computer-vision/h-264-vs-h-265-a-technical-comparison-when-will-h-265-dominate-the-market-26659303171a
Another excellent tutorial on it:
https://youtu.be/Fawcboio6g4
Here is a YouTube demo. The difference is dramatic for h.265:
https://youtu.be/qL22L0mRSDs
Source: https://medium.com/advanced-computer-vision/h-264-vs-h-265-a-technical-comparison-when-will-h-265-dominate-the-market-26659303171a