Video bitrate and file size calculation

Folks,

I am trying to understand the relationship between video bitrate, image size, codec, and the file size. For example, if I have a movie that has an image of 1920*1080 pixels, the bitrate is 24 MBPS, the length is 2 hours and the codec used is H.264, how can I approximate the file size?

We can ignore audio for the moment.

Any pointer would be appreciated.

Regards,
Peter

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You have the bitrate and the length, so you can simply multiply them together:

24 MBPS * 2 hours * 60 minutes / hour * 60 seconds / minute = 172,800 MB

If MB in your case is "Megabits" and not "MegaBytes", then divide by 8 to get 21,600 MegaBytes or ~21.6 GB.

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Thank you for your help. That was indeed my initial calculation but what I failed to understand is how the codec fits into this equation. I would imagine an encoder such as H.264 is better at compression compared to others. I heard MJPEG2000 is even better in compression. The other thing that I don't understand is how the initial size of the movie comes into picture. I would imagine 1920x1080 size would take more space compared to 720p. – Peter Jan 19 '12 at 21:08
Well that's going to depend on how you tell the compressor to do its job, and the content of the video. If you tell the compressor to use 24 MBPS for your 720p footage, you end up with a file the same size . If your frame size is smaller, you can usually turn down that 24 MBPS to something equally smaller and get the same quality level. Since 1920x1080 is about double the area of 1280x720, you could compress your 720p footage to 12 MBPS and get roughly the same quality. – user1118321 Jan 19 '12 at 21:42
By the way, if this answer was useful, please check the green check mark on the left! – user1118321 Jan 19 '12 at 22:40

I did it in a different way. I figured out how to calculate the bitrate per size of picture to always get the best for a 2 hour movie.

frames per sec. -30

res.width -1920

res.height -1080

Gop size -12

frame/sec by Gopsize `(30/12=2,5)`

pixels in 1 frame `(1920*1080=2.073.600)`

pixels in frame/sec `(2.073.600*30=62.208.000)`

bitrate max needed `(62.208.000/2,5=24.883.200)` -24000 - 24Mb/s

bitrate with 70% loses `(24.883.200/0,7=17.418.240)` - 17000 - 17Mb/s For 720i with loses 70% and will give a size of file equalling 10Gb

for losses of 40% give 4Gb and screens with a res of 720-480 and an aspect ratio of 3/4, this will give size 3,7Gb for 70% and 1,4Gb for 40%

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