How do I calculate the output size in a convolution layer?
For example, I have a 2D convolution layer that takes a 3x128x128 input and has 40 filters of size 5x5.
5 Answers
you can use this formula [(W−K+2P)/S]+1.
- W is the input volume - in your case 128
- K is the Kernel size - in your case 5
- P is the padding - in your case 0 i believe
- S is the stride - which you have not provided.
So, we input into the formula:
Output_Shape = (128-5+0)/1+1
Output_Shape = (124,124,40)
NOTE: Stride defaults to 1 if not provided and the 40 in (124, 124, 40) is the number of filters provided by the user.
answered Dec 2, 2018 at 12:16
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2what if the calculated size wasn't an integer number? how should the number be rounded?– asalimihJun 24, 2020 at 21:01
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4@asalimih i just ran a small test and it seems to round down in my case. Feel free to create a model with an input shape of 224 and replicate! Jul 12, 2020 at 23:52
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1@PyWalker2797 afaik it doesnt as the way the operations are done on the input plane is for each channel, no matter the number of input channels. Oct 13, 2020 at 22:34
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You can find it in two ways: simple method: input_size - (filter_size - 1)
W - (K-1)
Here W = Input size
K = Filter size
S = Stride
P = Padding
But the second method is the standard to find the output size.
Second method: (((W - K + 2P)/S) + 1)
Here W = Input size
K = Filter size
S = Stride
P = Padding
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1For other readers, you can do a WolframAlpha computation of this formula to quickly check the effect of some of these parameters.– ErikJul 12, 2021 at 10:44
Let me start simple; since you have square matrices for both input and filter let me get one dimension. Then you can apply the same for other dimension(s). Imagine your are building fences between trees, if there are N trees, you have to build N-1 fences. Now apply that analogy to convolution layers.
Your output size will be: input size - filter size + 1
Because your filter can only have n-1 steps as fences I mentioned.
Let's calculate your output with that idea. 128 - 5 + 1 = 124 Same for other dimension too. So now you have a 124 x 124 image.
That is for one filter.
If you apply this 40 times you will have another dimension: 124 x 124 x 40
Here is a great guide if you want to know more about advanced convolution arithmetic: https://arxiv.org/pdf/1603.07285.pdf
Formula : n[i]=(n[i-1]−f[i]+2p[i])/s[i]+1
where,
n[i-1]=128
f[i]=5
p[i]=0
s[i]=1
so,
n[i]=(128-5+0)/1+1 =124
so the size of the output layer is: 124x124x40 Where '40' is the number of filters
answered Feb 21, 2019 at 10:17
(124*124*3)*40 = 1845120 width = 124 height = 124 depth = 3 no. of filters = 40 stride = 1 padding = 0
machine-learningtag info.