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The question is not about a library or tool, but about the specifications (either the standard or the summarized definition) of a YUV 4:2:0 movie stream.

Are YUV 420 movie streams just some concatenated YUV images, and if so, what is the specification of these frames and of the stream?

I want to make a simple images to YUV 420 helper, but if it happens that it requires also some computations / compression / prediction, I'll just surrender. If it just requires to convert images to YUV then append them together, I'll code it and share the C# source here.

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I'd say there are two options: either the spec exists online (did you find it? Why not?) or the spec doesn't exist (then this question will stay unanswered for a long time). This query seems useful: – Jan Dvorak Sep 1 '13 at 17:56
Thanks for this website link, I'll bookmark it. Other than that, I find Stack Overflow precisely useful to ask questions with unclear information around the subject like this one. – Léon Pelletier Sep 1 '13 at 18:24
up vote 2 down vote accepted

Two ways: The first is really just concatenated YUV images (note that the order of planes is usually YVU, not YUV). For the format of a single frame look up for example the YV12 format, which is one way to lay out YUV 420 images in memory.

The other way is the YUV for MPEG format, which does the same but starts with a bit of header information: See for example here:

If you have a YUV for MPEG file you have all the information needed to work with it in the file. If you have a raw YUV file you need to know the resolution, frame rate and subsampling to work with it.

Another fun wrinkle here is that there are different ways to convert a 4:4:4 YUV image into a 4:2:0 YUV image, depending on where you put your subsampling grid. Interlacing makes this a bit complicated also.

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So under the hood of MPEG compression there are the JPEG compressed key frames. JPEG brakes up an RGB image into luma (Y) and chroma (Cb, Cr) components (YCbCr) as the first step. So if someone right away just needs YUV, then a conversion between YUV and RGB could be bypassed, although conversion between YUV and YCrCb is also a vector transformation basically. – Csaba Toth Sep 1 '13 at 19:03
It's not exactly the same as JPEG. the different MPEG-1 and 2 use a different quantization matrix from JPEG and a different entropy coding scheme. And of course the main feature of MPEG-1 and 2 is that they do block-based motion compensation to cut down the required bit rate. But MPEG encoders do use YCbCr (usually with 4:2:0 subsampling) as their in- and output formats. – confusopoly Sep 1 '13 at 20:10

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