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i'm working on image processing with CUDA and i've a doubt about pixels processing. What is often done with the boundary pixels of an image when applying a mxm convolution filter?.

I've tested, in a 3x3 convolution kernel, that ignore the 1px boundary of the image is easier to implement (more when the code is enhanced with shared memory). I mean, you dont need to check if at a given pixel it has all the neigbourhood available (i.e. pixel at coord (0,0) has not left, left-upper, upper neighbours). However, removing 1px boundary of the original image could generate partial results. What do you usually do?. Of course, it depends on the type of problem (i.e. add two images has not this problem :P).

I'd like to process all the pixels within the image but when using shared memory improvements, i.e. overlap the load/store of the shared memory (load 16x16 pixels but compute the inner 14x14), generate a clear code if you ignore 1px boundary. Do you usually use this approach?

Thanks in advance.

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1 Answer 1

up vote 6 down vote accepted

A common approach to dealing with border effects is to pad the original image with extra rows & columns based on your filter size. Some common choices for the padded values are:

  • A constant (e.g. zero)
  • Replicate the first and last row / column as many times as needed
  • Reflect the image at the borders (e.g. column[-1] = column[1], column[-2] = column[2])
  • Wrap the image values (e.g. column[-1] = column[width-1], column[-2] = column[width-2])
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I see. It require an extra effort in any case like a pre-processing to pad the image (it require realocate memory). Probably is more efficient simulate the extra padding while loading data into an 'extended' shared memory (i.e. load 18x18 pixels to compute 16x16). I'm working at the moment with this approach. Thanks for you suggestions. –  pQB Apr 19 '11 at 12:02
pQB if you use the texture memory of the GPU will provide and manage this boundary conditions for you, plus texture memory is faster. –  fabrizioM Apr 19 '11 at 19:01
That's rigt fabrizioM. That is the case of clamp the data in the boundary. But in other type of problems i could also store the results and reuse them in another kernel call. In this case i could not use the texture memory to store the results. I'd read something about 'surface' memory but never use it. (The convolution was an example to create a context for the question :). Thanks for your hint. –  pQB Apr 20 '11 at 10:00
Is there a summary for the properties of the different choices? –  Trass3r Oct 22 '13 at 11:42

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