8

Is there a numerically stable way to compute softmax function below? I am getting values that becomes Nans in Neural network code.

np.exp(x)/np.sum(np.exp(y))
  • 2
    The answers here show the better way to calculate the softmax: stackoverflow.com/questions/34968722/softmax-function-python – Alex Riley Mar 4 '17 at 18:14
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    @ajcr The accepted answer at this link is actually poor advice. Abhishek, the thing the OP does even though they first didn't seem to understand why is the right thing to do. There are no numerically difficult steps in the softmax except overflow. So shifting all inputs to the left while mathematically being equivalent, removes the possibility of overflow, so is numerically an improvement. – Paul Panzer Mar 4 '17 at 19:00
  • Yes, although the author of that accepted answer acknowledges in the comments that subtracting the maximum does not introduce an "necessary term" but actually improves numerical stability (perhaps that answer should be edited...). In any case, the question of numerical stability is addressed in several of the other answers there. @AbhishekBhatia: do you think the link answers your question satisfactorily, or would a new answer here be beneficial? – Alex Riley Mar 4 '17 at 19:39
28

The softmax exp(x)/sum(exp(x)) is actually numerically well-behaved. It has only positive terms, so we needn't worry about loss of significance, and the denominator is at least as large as the numerator, so the result is guaranteed to fall between 0 and 1.

The only accident that might happen is over- or under-flow in the exponentials. Overflow of a single or underflow of all elements of x will render the output more or less useless.

But it is easy to guard against that by using the identity softmax(x) = softmax(x + c) which holds for any scalar c: Subtracting max(x) from x leaves a vector that has only non-positive entries, ruling out overflow and at least one element that is zero ruling out a vanishing denominator (underflow in some but not all entries is harmless).

Note: theoretically, catastrophic accidents in the sum are possible, but you'd need a ridiculous number of terms and be ridiculously unlucky. Also, numpy uses pairwise summation which is rather robust.

5

Softmax function is prone to two issues: overflow and underflow

Overflow: It occurs when very large numbers are approximated as infinity

Underflow: It occurs when very small numbers (near zero in the number line) are approximated (i.e. rounded to) as zero

To combat these issues when doing softmax computation, a common trick is to shift the input vector by subtracting the maximum element in it from all elements. For the input vector x, define z such that:

z = x-max(x)

And then take the softmax of the new (stable) vector z


Example:

In [266]: def stable_softmax(x):
     ...:     z = x - max(x)
     ...:     numerator = np.exp(z)
     ...:     denominator = np.sum(numerator)
     ...:     softmax = numerator/denominator
     ...:     return softmax
     ...: 

In [267]: vec = np.array([1, 2, 3, 4, 5])

In [268]: stable_softmax(vec)
Out[268]: array([ 0.01165623,  0.03168492,  0.08612854,  0.23412166,  0.63640865])

In [269]: vec = np.array([12345, 67890, 99999999])

In [270]: stable_softmax(vec)
Out[270]: array([ 0.,  0.,  1.])

For more details, see chapter Numerical Computation in deep learning book.

1

Thank Paul Panzer's explanation, but I am wondering why we need to subtract max(x). Therefore, I found more detailed information and hope it will be helpful to the people who has the same question as me. See the section, "What’s up with that max subtraction?", in the following link's article.

https://nolanbconaway.github.io/blog/2017/softmax-numpy

0

There is nothing wrong with calculating the softmax function as it is in your case. The problem seems to come from exploding gradient or this sort of issues with your training methods. Focus on those matters with either "clipping values" or "choosing the right initial distribution of weights".

  • 5
    "There is nothing wrong with calculating the softmax function as it is in your case." Try computing softmax(800) with it. – Warren Weckesser Mar 5 '17 at 0:39
  • Doing anything in that scale would cause "inf" any thing in python is unstable if you are trying to work in that scale. – amir hossein hajavi Mar 8 '17 at 10:47

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