Skip to end of metadata
Go to start of metadata

You are viewing an old version of this page. View the current version.

Compare with Current View Page History

« Previous Version 57 Next »

FFmpeg is frequently used by different studios for encoding their media, however the documentation for ffmpeg is often poor, or cryptic so its often harder than it should be to come up with a good starting point. We are aiming to come up with recommendations for different scenarios as well as document what the different flags are doing with the aim to make this easier to get to a good baseline.


Overview

We are looking for recommendations for the following:

  • Best color preservation for output to:
    • Web, OSX, IOS and Windows.
    • Common applications: e.g. RV, Nuke.
    • Rec709 and sRGB displays to start with, but eventually, P3, rec2020 and HDR displays.
    • Web browser - Firefox reviewing mp4. - use firefox plugin.
    • RV
  • Codec recommendations for:
    • Proxy H264 playback (e.g. web streaming), should be setup for web streaming.
    • Animation/Modelling/Layout movie playback. - somewhat lower quality playback, but should always provide smooth motion.
    • Lookdev/lighting/compositing movie playback - should have excellent color fidelity and minimal encoding artifacts
      • Should any filmlook be baked in, or should we assume that is always applied during viewing.
      • How much should we be able to adjust color and have the image hold up? (Or rely on exr's for that?).
    • Export to editorial.
    • High-resolution or frame rate - e.g. 4k, 8k, 60fps, 120fps.
    • Stereo or VR.
  • Q: Which container should we be considering: mov, mp4, mxf.

Where ffmpeg arguments, it would be great to document why we are using them, rather than ending up with a recipe. 

Overall workflow

For this paper, we are assuming that we are encoding from a file-sequence of frames into a movie (rather than re-encoding a movie), but we are also assuming almost all of the colorspace work would be done outside of ffmpeg, with tools using the OCIO library. Examples could include nuke and oiio. Once we get to ffmpeg, the goal being that the pixel data we get in, should be as close as possible to the data we get out of ffmpeg. However, there are still quite a few areas that a ffmpeg user could go wrong, which we break down below. 

TODO: Find examples of overall workflow. 

Codec Selection.


NameTarget UsageSourceffmpeg flagsDescriptionSize
libx264 -pix_fmt yuv420pProxy playback, for web review, and non-color critical workflows, e.g. animation, modeling, etc.

This should be a lightweight compression, capable of supporting HD with a reasonable bit-rate, hopefully supporting a wide range of web browsers.
Final review, e.g. lighting

libx264 -pix_fmt yuv444p10leFinal review, e.g. lightinghttps://trac.ffmpeg.org/wiki/colorspace-c:v libx264 -preset placebo -qp 0 -x264-params "keyint=15:no-deblock=1" -pix_fmt yuv444p10le -sws_flags spline+accurate_rnd+full_chroma_int -vf "colorspace=bt709:iall=bt601-6-625:fast=1" -color_range 1 -colorspace 1 -color_primaries 1 -color_trc 1

libx264rgbFinal review, e.g. lighting

This is a variant of the above, its essentially using x264, but not converting to YCrCb.
libx265

-c:v libx264

Prores 4444For delivery to editorial
-c:v prores_ks -profile:v 4444 -qscale:v 1 -pix_fmt yuv444p10le -sws_flags spline+accurate_rnd+full_chroma_int -vf "colorspace=bt709:iall=bt601-6-625:fast=1" -color_range 1 -colorspace 1 -color_primaries 1 -color_trc 1

-profile:v 4444 is equivalent to -profile:v 4
shotgun_diy_encode
https://support.shotgunsoftware.com/hc/en-us/articles/219030418-Do-it-yourself-DIY-transcoding',-vcodec libx264 -pix_fmt yuv420p -g 30 -vprofile high -bf 0 -crf 2

DnxHD

For delivery to editorial



Prores 422 HQFor delivery to editorialSome FFMpeg commands I need to remember for converting footage for video editing. http://bit.ly/vidsnippets · GitHub

-pix_fmt yuv422p10le -c:v prores_ks -profile:v 3 -vendor ap10 -sws_flags spline+accurate_rnd+full_chroma_int -vf "colorspace=bt709:iall=bt601-6-625:fast=1" -color_range 1 -colorspace 1 -color_primaries 1 -color_trc 1



Note the -vendor ap10 part below is only needed if working with Final Cut, but it does no harm otherwise.

-profile:v 3 is equivalent to -profile:v hq

h264

Key flags (see https://trac.ffmpeg.org/wiki/Encode/H.264 ) 

-preset slow -crf 18   level 4 profile high.

RV - 10bit YUV444.

Better to stick with yuv – 

FFMPEG.

TODO:

  • Suggestions for max-bitrate?
  • Suggestions for preset - ? slow
  • Suggestions for tune

h265/HVEC

Support: https://caniuse.com/hevc (or https://www.chromium.org/audio-video ) currently no support for h265 on chrome or chromium based browsers.

links:

VMAF

I did explore using VMAF - Video Multi-Method Assessment Fusion as a way to quantify the compression, the notes for setting this up are below, however I think we are going with a fairly high compression factor , so I think this is probably not really going to help us much.

https://github.com/Netflix/vmaf

https://jina-liu.medium.com/a-practical-guide-for-vmaf-481b4d420d9c

https://netflixtechblog.com/toward-a-practical-perceptual-video-quality-metric-653f208b9652

https://ottverse.com/vmaf-ffmpeg-ubuntu-compilation-installation-usage-guide/ - building VMAF on ubuntu.

Color Preservation

Testing Methodology

Converting SMPTE color bars to the compressed movie, using ffmpeg to expand and then compare with OIIO. NOTE, for compression schemes that are not 444 we may need to mask the transitions.

Testing loading the compressed movie in to RV, Firefox, VLC, Avid, resolve, , to compare the resulting color transformation - not sure if there is a procedural way to run this?

For the tests below we are assuming that other tools are being used (e.g. oiiotool) to convert the rendered frames into an intermediate file (e.g. PNG) in the target color-space. 

Q: Currently focusing just on color matching in vs. out, but should also do EXR ACEScg in to resulting movie. Feels like we should also bless full pipeline, e.g.: Reference "Dailies script" https://github.com/jedypod/generate-dailies

Test Sources

SMPTE test chart: https://commons.wikimedia.org/wiki/File:SMPTE_Color_Bars_16x9.svg 

Download image sequence from: https://senkorasic.com/testmedia/ - 

Explore netflix: https://opencontent.netflix.com/

Test Results:

taurich.org/encodingTests/results.html

Notes

The big issue here is that by default if you start converting images to another format, and ffmpeg cannot determine the colorspace  it will default to bt601. So many of the flags below are to:

A: Tell ffmpeg that the source media is in fact bt709

B: Add the metadata to the output, so that other future conversions also know how to convert it back.

C: Do as clean a conversion from RGB to YUV as possible.

RGB/YCrCb Colorspace Conversion  

As a rule of thumb, we would like ffmpeg to do as little as possible in terms of color space conversion. i.e. what comes in goes out. The problem is that most of the codecs are doing some sort of RGB to YUV conversion (technically YCrCb). The notable exception is x264rgb (see above). For more information, see: https://trac.ffmpeg.org/wiki/colorspace 

For examples comparing these see: https://richardssam.github.io/ffmpeg-tests/tests/chip-chart-yuvconvert/compare.html

colormatrix filter

ffmpeg -y -i ../sourceimages/chip-chart-1080-noicc.png -sws_flags spline+accurate_rnd+full_chroma_int -vf "colormatrix=bt470bg:bt709" -c:v libx264 -preset placebo -qp 0 -x264-params "keyint=15:no-deblock=1" -pix_fmt yuv444p10le -qscale:v 1 -color_range 1 -colorspace 1 -color_primaries 1 -color_trc 1 ./chip-chart-yuvconvert/spline444colormatrix2.mp4

This is the most basic colorspace filtering. bt470bg is essentially part of the bt601 spec.  See: https://www.ffmpeg.org/ffmpeg-filters.html#colormatrix

colorspace filter

ffmpeg -y -i ../sourceimages/chip-chart-1080-noicc.png -sws_flags spline+accurate_rnd+full_chroma_int -vf "colorspace=bt709:iall=bt601-6-625:fast=1" -c:v libx264 -preset placebo -qp 0 -x264-params "keyint=15:no-deblock=1" -pix_fmt yuv444p10le -qscale:v 1 -color_range 1 -colorspace 1 -color_primaries 1 -color_trc 1 ./chip-chart-yuvconvert/spline444colorspace.mp4

Using colorspace filter, better quality filter, SIMD so faster too, can support 10-bit too.  The second part -vf "colorspace=bt709:iall=bt601-6-625:fast=1" encodes for the output being bt709, rather than the default bt601 matrix. iall=bt601-6-625 says to treat all the input (colorspace, primaries and transfer function) with the bt601-6-625 label). fast=1 skips gamma/primary conversion in a mathematically correct way.  See:  https://ffmpeg.org/ffmpeg-filters.html#colorspace

libswscale filter

ffmpeg -y -i ../sourceimages/chip-chart-1080-noicc.png -sws_flags spline+accurate_rnd+full_chroma_int+full_chroma_inp -vf "scale=in_range=full:in_color_matrix=bt709:out_range=tv:out_color_matrix=bt709" -c:v libx264 -preset placebo -qp 0 -x264-params "keyint=15:no-deblock=1" -pix_fmt yuv444p10le -qscale:v 1 -color_range 1 -colorspace 1 -color_primaries 1 -color_trc 1 ./chip-chart-yuvconvert/spline444out_color_matrix.mp4

Using the libswscale library. Seems similar to colorspace, but with image resizing, and levels built in.  https://www.ffmpeg.org/ffmpeg-filters.html#scale-1

This is the recommended filter.

Color Metadata NCLC

The above gets the underlying data stored correctly, but there are additional metadata flags that can be set that are interpreted by some players, these are the NCLC color tags for color primaries, transfer function and conversion matrix.  This is defined as a ISO spec here (see https://www.iso.org/standard/73412.html). The numbers below are part of the definition.

NOTE: None of the flags below affect the encoding of the source imagery, they are meant to be used to guide how the mp4 file is decoded.

The docs are pretty sparse for this, some of the better info is FFmpeg/pixfmt.h at master · FFmpeg/FFmpeg · GitHub

links:

Color Range

Uses the flag -color_range e.g. -color_range 1 or -color_range tv

Numeric valueString ValuesNumeric rangeNotes
0

Unspecified
1

tv

mpeg

16-135This is the default.
2

pc

jpeg

0-255


Color Space

This defines the YUV colorspace type, as defined by ISO/IEC 23091-2_2019 subclause 8.3

Use flag -colorspace, e.g. -colorspace 1 or -colorspace rec709

This is a subset of the full list of values, for more details, see FFmpeg/pixfmt.h at master · FFmpeg/FFmpeg · GitHub

Numeric ValueString valuesDescription
0rgb
1bt709Typically set it to this.
2
unspecified
9

bt2020nc

bt2020_ncl

ITU-R BT2020 non-constant luminance system
10

bt2020c

bt2020_cl

ITU-R BT2020 constant luminance system


Color Primaries

Chromaticity coordinates of the source primaries. These values match the ones defined by ISO/IEC 23091-2_2019 subclause 8.1 and ITU-T H.273.

This is defining your color gamut, so you typically want to be setting this for -color_primaries 1 unless you are working in bt2020.

This is a subset of the full list of values, for more details, see FFmpeg/pixfmt.h at master · FFmpeg/FFmpeg · GitHub

Numeric ValueString ValuesDescription
1bt709
9bt2020


Color Transfer Characteristic aka color_trc

These values match the ones defined by ISO/IEC 23091-2_2019 subclause 8.2.

This is defines the OETF, which typically is the gamma. 

Numeric ValueString ValuesDescription
1bt709Note this is the camera gamma i.e. ~1.95 this is NOT bt1886
2
Image characteristics are unknown or are determined by the
application.
4gamma22
5gamma28
8linearLinear
9

log

log100


13iec61966_2_1IEC 61966-2-1 or sRGB or sYCC
14

bt2020_10

bt2020_10bit

Note this is the camera gamma i.e. ~1.95 
15

bt2020_12

bt2020_12bit

Note this is the camera gamma i.e. ~1.95 

NOTE: -color_trc 1 - is not bt1886, but is actually the camera gamma, so has a gamma of ~1.95 rather than the 2.4 that is defined by bt1886. In order to get a gamma 2.4, you will need to use a quicktime hack (see below), but this only works on OSX. However, we suspect that chrome ignores the setting (see the following tests).

The following page shows what applying different color TRC values to the same source image:

https://taurich.org/encodingTests/ICCTest/greyramp/compare.html

What you may notice is on Chrome on windows, there is a slight color shift when compared to the PNG file. The other thing that is odd is that the bt709 flag doesnt actually seem to be doing anything, it functions identically to color-trc=2 which is a 'no-op". Its possible that this was picked deliberately due to too many people incorrectly assuming it was bt1886.


This second test highlights that better, by giving a source image that is designed so that when the images are displayed with the TRC settings they should match with a gamma 2.2 monitor.

https://taurich.org/encodingTests/ICCTest/greyramp-rev-ps/compare.html  https://www.color.org/version4html.xalter

Again, you will notice the bt709 (color-trc=1) is wildly off.


For more information on this I recommend:

Web Browser Deliverables

How should we be encoding content for a web browser.

Most windows laptops and most monitors typically default to a sRGB color space, the tricky part is that sRGB is sometimes interpreted as having exactly a 2.2 gamma, and sometimes a hybrid curve (based on the spec), for more details on this, see: https://vimeo.com/442069591

Questions to be answered:

  • On windows do any of the browsers read the color management settings flags for each monitor?
  • Why does everybody set -color_trc 1 ? - it seems completely meaningless?
  • Find the details about the firefox plugin for color management?
  • What do ICC profiles for stills do on windows/linux boxes? - Are there situations where this is replicated for movies.
  • Color shift on Chrome, reported: https://bugs.chromium.org/p/chromium/issues/detail?id=1262622#makechanges


BrowserPlatformInterpret NCLC flagsColor ManagedTestedNotes
FirefoxOSXNo


FirefoxWindowsNo


FirefoxWindows



SafariOSXYesYes

ChromeOSXYesYes

SafariIOSNo


ChromeWindowsSometimes

Seems to occasionally stop working, it could be related to multiple screens.
ChromeLinux



EdgeWindowsSometimes

Seems to occasionally stop working, it could be related to multiple screens.

Gamma 2.4

There is not a color_trc flag for gamma 2.4, the only option that exists for OSX is a cheat 

using the flags "-color_trc 2 -movflags write_colr+write_gama -mov_gamma 2.4" but this only works for a full quicktime file, not a mp4 file. So the resulting file will not play correctly on windows.

 -color_trc 2    – means the transfer function is unspecified.

-movflags write_colr+write_gama -mov_gamma 2.4  – allows you to specify a gamma parameter directly to the quicktime file.

e.g.

ffmpeg -y -i chip-chart-1080.png -c:v libx264 -pix_fmt yuv444p -qscale:v 1 -sws_flags spline+accurate_rnd+full_chroma_int -vf "colorspace=bt709:iall=bt601-6-625:fast=1" -color_range 1 -colorspace 1 -color_primaries 1 -color_trc 2 -movflags write_colr+write_gama -mov_gamma 2.4 test2-h264-ffmpeg-yuv444p-gamma24.mp4

Full range vs. legal range

Typically x264 (and other codecs) are following the video standard that lumance is scaled to the range 16-235. This has a history from early signaling where 236-255 were used for signaling and 0-15 to avoid any noise in the low end (some of the logic was derived from analog video) 

However, that means that when we do the conversion, we can end up with 235-16 = 219 luminance values, rather than 255 (14% less levels). This is actually supported in web browsers, e.g.: chrome, firefox, safari.

The following web page demonstrates the resulting differences:

https://taurich.org/encodingTests/ICCTest/greyramp-fulltv/compare.html

There are two ways to do the conversion:

ffmpeg -y -i radialgrad.png -sws_flags spline+accurate_rnd+full_chroma_int -vf "scale=in_range=full:in_color_matrix=bt709:out_range=full:out_color_matrix=bt709" -c:v libx264 -pix_fmt yuvj420p -qscale:v 1 -color_range 2 -colorspace 1 -color_primaries 1 -color_trc 1 ./greyramp-fulltv/greyscale-fullj.mp4

or 

ffmpeg -y -i radialgrad.png -sws_flags spline+accurate_rnd+full_chroma_int -vf "scale=in_range=full:in_color_matrix=bt709:out_range=full:out_color_matrix=bt709" -c:v libx264 -pix_fmt yuv420p -qscale:v 1 -color_range 2 -colorspace 1 -color_primaries 1 -color_trc 1 ./greyramp-fulltv/greyscale-full.mp4


TODO:

  • Do tests of what happens when ffmpeg then converts the resulting file format, to ensure that the correct range is read.
  • Find reference for archaic legal range.


References:



Other links

https://github.com/bbc/qtff-parameter-editor

  • No labels