I need to convert a bunch of video files using FFmpeg. I run a Bash file that converts all the files nicely, however there is a problem if a file converted is not in 16:9 format.

As I am fixing the size of the screen to -s 720x400, if the aspect ratio of the original is 4:3, FFmpeg creates a 16:9 output file, screwing up the aspect ratio.

Is there a setting that allows setting an aspect ratio as the main parameter, with size being adjusted (for example, by fixing an X or Y dimension only)?

10 Answers 10

-vf "scale=640:-1"

works great until you will encounter error

[libx264 @ 0x2f08120] height not divisible by 2 (640x853)

So most generic approach is use filter expressions:


It takes output width (ow), divides it by aspect ratio (a), divides by 2, truncates digits after decimal point and multiplies by 2. It guarantees that resulting height is divisible by 2.

Credits to ffmpeg trac


As comments pointed out simpler way would be to use -vf "scale=640:-2". Credits to @BradWerth for elegant solution

  • 10
    Or, if you want to specify the height and let ffmpeg set the width proportionally, scale=trunc(oh*a/2)*2:min(480\,iw). Jun 12, 2013 at 12:25
  • 1
    @BradWerth is this documented anywhere?
    – Adam
    Apr 4, 2018 at 15:18
  • 1
    @Adam not that I can recall. I believe I was just reading through the options and playing with the settings while implementing this excellent answer.
    – Brad Werth
    Apr 4, 2018 at 15:35
  • Minor note: scale=640:trunc(ow/a/2)*2 and scale=640:-2 are both sufficient answers but not necessarily equivalent. The truncation in the former can give a value that is, e.g. 2 pixels, smaller depending on the size of the input source.
    – systemexit
    Jun 6, 2018 at 21:16
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    @AndersEmil from what I know it is only to x264 and relevant to both width and height
    – mente
    Oct 30, 2018 at 9:32

For example:

1920x1080 aspect ratio 16:9 => 640x480 aspect 4:3:

ffmpeg -y -i import.media -aspect 16:9 scale=640x360,pad=640:480:0:60:black output.media

aspect ratio 16:9 , size width 640pixel => height 360pixel:
With final output size 640x480, and pad 60pixel black image (top and bottom):

"-vf scale=640x360,pad=640:480:0:60:black"
  • 2
    I've just needed to go from 640x480 to 1280x720 and used -aspect 16:9 -vf scale=960x720,pad=1280:720:160:0:white (I needed white padding instead of black, too). Thanks!
    – Peter K.
    Mar 18, 2016 at 14:20
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    I needed to go the opposite way, from 640x480 to 1920x1080 with pillar boxing: -vf "scale=1440x1080,pad=1920:1080:240:0:black" Apr 12, 2017 at 22:41
  • I got it to work with this: ffmpeg -y -i 01.mp4 -vf "scale=640x360,pad=640:480:0:60:black" 02.mp4 Jul 11, 2017 at 14:21

I've asked this a long time ago, but I've actually got a solution which was not known to me at the time -- in order to keep the aspect ratio, you should use the video filter scale, which is a very powerful filter.

You can simply use it like this:

-vf "scale=640:-1" 

Which will fix the width and supply the height required to keep the aspect ratio. But you can also use many other options and even mathematical functions, check the documentation here - http://ffmpeg.org/ffmpeg.html#scale

  • 3
    this worked out well but I still found that I could run into problems if the height was not divisible by 2. Any idea how to get around this problem?
    – DevDave
    Oct 3, 2012 at 10:51
  • 16
    note the -vf "scale=640:-2" answers here as well.
    – coco
    Sep 1, 2015 at 3:55

Although most of these answers are great, I was looking for a command that could resize to a target dimension (width or height) while maintaining aspect ratio. I was able to accomplish this using ffmpeg's Expression Evaluation.

Here's the relevant video filter, with a target dimension of 512:

-vf "thumbnail,scale='if(gt(iw,ih),512,trunc(oh*a/2)*2)':'if(gt(iw,ih),trunc(ow/a/2)*2,512)'"

For the output width:


If width is greater than height, return the target, otherwise, return the proportional width.

For the output height:


If width is greater than height, return the proportional height, otherwise, return the target.

  • -vf "scale='if(gt(iw,ih),512,-1)':'if(gt(iw,ih),-1,512)'" is way easier.
    – PRMan
    Nov 5, 2021 at 20:13

Use force_original_aspect_ratio, from the ffmpeg trac:

ffmpeg -i input.mp4 -vf scale=720:400:force_original_aspect_ratio=decrease output.mp4
  • This fails when your video has a weird size like for example 1438x800 then the result will be 719x400 and gives an error because width is not divisible by 2... Feb 4, 2017 at 13:57
  • @DanielCarrascoMarín Yep, when you have no control over the input video size, then the problem of divisibility by 2 is not possible to solve by ffmpeg itself (unfortunately). I have solved it by computing the aspect ratio in the Python script and then pass the ffmpeg scale= params I want.
    – xmedeko
    Feb 6, 2017 at 9:14
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    I just tested it with ffmpeg 3.4 and 3.2.9, and it works as a charm. Video become: 719x400 but there were no errors. I could play it with VLC media player (saw the extra pixel on the right). Ubuntu native video player also played it well. And ffmpeg could read the file after, and convert to another one
    – Kostanos
    Nov 2, 2017 at 17:37

If you are trying to fit a bounding box, then using force_original_aspect_ratio as per xmedeko's answer is a good starting point.

However, this does not work if your input video has a weird size and you are encoding to a format that requires the dimensions to be divisible by 2, resulting in an error.

In this case, you can use expression evaluation in the scale function, like that used in Charlie's answer.

Assuming an output bounding box of 720x400:

-vf "scale='trunc(min(1,min(720/iw,400/ih))*iw/2)*2':'trunc(min(1,min(720/iw,400/ih))*ih/2)*2'"

To break this down:

  • min(1,min(720/iw,400/ih) finds the scaling factor to fit within the bounding box (from here), constraining it to a maximum of 1 to ensure it only downscales, and
  • trunc(<scaling factor>*iw/2)*2 and trunc(<scaling factor>*iw/2)*2 ensure that the dimensions are divisible by 2 by dividing by 2, making the result an integer, then multiplying it back by 2.

This eliminates the need for finding the dimensions of the input video prior to encoding.


you can use ffmpeg -i to get the dimensions of the original file, and use that in your commands for the encode. What platform are you using ffmpeg on?

  • Hi, I am using it on Linux. I would ideally like to have a bash script that works regardless of aspect ratio. I guess I can adjust it manually for non-widescreen resolution, but with the myriad of options in ffmpeg I thought I just didn't know a trick setting...
    – 0-alpha
    Nov 22, 2011 at 19:09
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    Yes, it is an answer because by using the original dimensions and scaling them down (or up) by a simple computation, OP can solve the problem "manually".
    – Alfe
    Feb 28, 2014 at 9:56
  • I found it useful in any case. Personally I am glad this answer was posted. Aug 29, 2014 at 5:34

If '-aspect x:y' is present and output file format is ISO Media File Format (mp4) then ffmpeg adds pasp-atom (PixelAspectRatioBox) into stsd-box in the video track to indicate to players the expected aspect ratio. Players should scale video frames respectively. Not needed to scale video before encoding or transcoding to fit it to the aspect ratio, it should be performed by a player.


As ffmpeg requires to have width/height dividable by 2, and I suppose you want to specify one of the dimensions, this would be the option:

ffmpeg -i input.mp4 -vf scale=1280:-2 output.mp4

The above answers are great, but most of them assume specific video dimensions and don't operate on a generic aspect ratio.

You can pad the video to fit any aspect ratio, regardless of specific dimensions, using this:

-vf 'pad=x=(ow-iw)/2:y=(oh-ih)/2:aspect=16/9'

I use the ratio 16/9 in my example. The above is a shortcut for just doing something more manual like this:


That might output odd-sized (not even) video dimensions, so you can make sure the output is even like this:


But really all you need is pad=x=(ow-iw)/2:y=(oh-ih)/2:aspect=16/9

For all of the above examples you'll get an error if the INPUT video has odd-sized dimensions. Even pad=iw:ih gives error if the input is odd-sized. Normally you wouldn't ever have odd-sized input, but if you do you can fix it by first using this filter: pad='mod(iw,2)+iw':'mod(ih,2)+ih'

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