I want to filter an image with a simple convolution kernel in python-pillow. However, to achieve optimal results, I need a 9x9 kernel. This is not possible in pillow, at least when using ImageFilter.Kernel and the built-in filter() method, which are limited to 5x5 kernels.

Short of implementing my own convolution code, is there a way to filter/convolve an image with a kernel size larger than 5x5?

  • Can you show why it is not possible? - Just for completeness? Or some code trying it with an error?
    – User
    Jul 15, 2015 at 20:59
  • 2
    Are you restricted to just using PIL? Have you considered using OpenCV or scipy?
    – rayryeng
    Jul 15, 2015 at 21:11
  • 1
    @User: It's stated explicitly in the documentation. Also, calling filter() with a larger kernel raises a "bad kernel size" ValueError.
    – jpfender
    Jul 16, 2015 at 8:13
  • @rayryeng No, I'd just prefer a solution using PIL because it's very simple and clean and otherwise exactly meets my needs. But I am currently looking into scipy.
    – jpfender
    Jul 16, 2015 at 8:16
  • 1
    I don't have experience in PIL but I'm surprised to see that you can't convolve with anything > 5 x 5. In that case, if you're looking at scipy, have a look at convolve that's part of the ndimage package: docs.scipy.org/doc/scipy-0.15.1/reference/generated/… . You can load in an image using scipy.imread, convolve, then convert to a PIL Image object with Image.fromArray
    – rayryeng
    Jul 16, 2015 at 17:57

2 Answers 2


I'm quite surprised to see that PIL doesn't have support beyond 5 x 5 kernels. As such, it may be prudent to look at other Python packages, such as OpenCV or scipy... for the interest of saving time, let's use scipy. OpenCV is a pain to configure even though it's quite powerful.

I would recommend using scipy to load in your image with imread from the ndimage package, convolve the image with your kernel, then convert to a PIL image when you're done. Use convolve from the ndimage package, then convert back to a PIL image by Image.fromArray. It does have support to convert a numpy.ndarray (which is what is loaded in when you use scipy.ndimage.imread), which is great.

Something like this, assuming a 9 x 9 averaging filter:

# Import relevant packages
import numpy as np
from scipy import ndimage
from PIL import Image

# Read in image - change filename to whatever you want
img = ndimage.imread('image.jpg')

# Create kernel
ker = (1/81.0)*np.ones((9,9))

# Convolve
out = ndimage.convolve(img, ker)

# Convert back to PIL image
out = Image.fromArray(out, 'RGB')

pyvips is another option, if you're not tied to pillow, numpy or scipy. It's quite a bit faster and needs a lot less memory, especially for larger images. It'll beat opencv too, at least on some benchmarks.

I tried on this laptop:

import sys
import numpy as np
from scipy import ndimage
from PIL import Image

img = ndimage.imread(sys.argv[1])
ker = (1 / 81.0) * np.ones((9, 9))
out = ndimage.convolve(img, ker)
out = Image.fromarray(out)

I can run it like this:

$ /usr/bin/time -f %M:%e ./try257.py ~/pics/wtc-mono.jpg x.jpg

So a 10k x 10k pixel mono jpg on a 2015 i5 laptop takes about 22 seconds and needs a peak of 300mb of memory.

In pyvips it's:

import sys
import pyvips

im = pyvips.Image.new_from_file(sys.argv[1], access="sequential")
size = 9
kernel = size * [size * [1.0 / (size * size)]]
im = im.conv(kernel)

I see:

$ /usr/bin/time -f %M:%e ./try258.py ~/pics/wtc-mono.jpg x.jpg

About 5 seconds and 45mb of memory.

That's a float convolution. You can swap it to int precision like this:

im = im.conv(kernel, precision="integer")

And I see:

$ /usr/bin/time -f %M:%e ./try258.py ~/pics/wtc-mono.jpg x.jpg

1.8 seconds.

  • Thanks for this newer answer!
    – rayryeng
    Jan 7, 2019 at 19:18
  • Thanks! Though the libvips Python binding has been rewritten since. I've updated it to the latest version.
    – jcupitt
    Jan 8, 2019 at 5:10
  • Thanks! Curious. Did you compare with scikit-image? Curious on what the benchmarks are with that.
    – rayryeng
    Jan 8, 2019 at 5:13
  • Yes that's right. I don't see it in the benchmarks, but I do like how this library was developed
    – rayryeng
    Jan 8, 2019 at 5:43
  • OK, added scikit-image. It's 29x slower than pyvips on that test on my machine. Perhaps I made some horrible error :(
    – jcupitt
    Jan 8, 2019 at 13:26

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