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I want a circular convolution function where I can set the number N as I like.

All examples I looked at like here and here assume that full padding is required but that not what I want.

I want to have the result for different values of N

  • so input would N and and two different arrays of values
  • the output should be the N point convolved signal

Here is the formula for circular convolution. Sub N can be seen as the modulo operation.

enter image description here

taken from this basic introduction


update for possible solution

This answer is a suitable solution when the array a is piled accordingly to the different cases of N.

When I find time I will post a complete answer, meanwhile feel free to do so.

Thanks to @André pointing this out in the comments!



examples for input/output from here

N = 4

enter image description here

N = 7 with zero padding

enter image description here

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  • 4
    you should provide practical examples of what you expect (sample input(s)/output(s))
    – mozway
    Feb 8, 2022 at 14:32
  • 2
    I tried to specify do you need more concrete examples?
    – OuttaSpaceTime
    Feb 8, 2022 at 14:39
  • 4
    Please, it's best if you provide an explicit example here in the question.
    – Ivan
    Feb 8, 2022 at 14:47
  • 3
    @OuttaSpaceTime I think the other commenters expect some explicit numerical values, e.g. by definition of x1=np.array([1,2,3,4]) , x2=..., expected_result=... . Having some code to start with makes it a bit easier to reproduce and begin working on your problem, just as well as confirming that the answer is actually correct.
    – André
    Feb 8, 2022 at 14:54
  • 2
    @André I think it might be a solution if we change how the array a is tiled. I think in the case N => L > P we have to zero pad a and in the other a will be tiled from a different index. Thanks for pointing this out!
    – OuttaSpaceTime
    Feb 8, 2022 at 16:08

1 Answer 1

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3

I think that this should work:

def conv(x1, x2, N):
    n, m = np.ogrid[:N, :N]
    return (x1[:N] * x2[(n - m) % N]).sum(axis=1)

This is a direct translation of the formula posted in the question:

enter image description here

To implement this formula, first we compute an array of indices used by x₂. This is done using the code

n, m = np.ogrid[:N, :N]
indices = (n - m) % N

For example, for N=5, the array indices is:

[[0 4 3 2 1]
 [1 0 4 3 2]
 [2 1 0 4 3]
 [3 2 1 0 4]
 [4 3 2 1 0]]

The entry in the i-th row and j-th column is (i-j) % N. Then, x2[indices] creates an array consisting of elements of x2 corresponding to these indices. It remains to multiply each row of this array by the first N elements of x1 and take the sum of each row:

(x1[:N] * x2[indices]).sum(axis=1)
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  • 2
    cool thanks! would you mind adding some details what the exact parts of your function are doing?
    – OuttaSpaceTime
    Feb 9, 2022 at 17:10
  • 1
    @OuttaSpaceTime I added some explanations.
    – bb1
    Feb 9, 2022 at 20:04
  • pretty neat thanks, +1000
    – OuttaSpaceTime
    Feb 9, 2022 at 20:29
  • The code gives errors when I try with h = np.array([1, 0, 2, 1]), x = np.array([1, -1, 0, 2, -2, -1]) and N = len(h) + len(x) - 1: IndexError: index 8 is out of bounds for axis 0 with size 6
    – OuttaSpaceTime
    Feb 17, 2022 at 13:04
  • The right zero padding is probably missing, when the signal have not the same length proper zero padding is required
    – OuttaSpaceTime
    Feb 17, 2022 at 13:06

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