Both MXNet and PyTorch provide special implementation for computing log(softmax()), which is faster and numerically more stable. However, I cannot find the actual Python implementation for this function, log_softmax(), in either package.

Can anyone explain how this is implemented, or better, point me to the relevant source code?


2 Answers 2

  • The numerical error:
>>> x = np.array([1, -10, 1000])
>>> np.exp(x) / np.exp(x).sum()
RuntimeWarning: overflow encountered in exp
RuntimeWarning: invalid value encountered in true_divide
Out[4]: array([ 0.,  0., nan])

There are 2 methods to avoid the numerical error while compute the softmax:

  • Exp Normalization:

enter image description here

def exp_normalize(x):
    b = x.max()
    y = np.exp(x - b)
    return y / y.sum()

>>> exp_normalize(x)
array([0., 0., 1.])
  • Log Sum Exp

enter image description here

def log_softmax(x):
    c = x.max()
    logsumexp = np.log(np.exp(x - c).sum())
    return x - c - logsumexp

Please note that, a reasonable choice for both b, c in above formula is max(x). With this choice, overflow due to exp is impossible. The largest number exponentiated after shifting is 0.


You can find one of the CPU implementations here and a vectorized version here (this is the log version, called from vec_host_softmax_lastdim).

You can find a CUDA implementation here, which then calls softmax_warp_forward.

They are all similar, just the syntax that differs. As you can see, there is usually a flag that defines whether or not softmax will be computed using the log., i.e., LogSoftMax instead of SoftMax.

  • Thank you for pointing to the actual C++ implementation, which uses the same trick as what described in Jonny Vu's answer.
    – herrlich10
    May 3, 2020 at 14:38
  • @herrlich10 yeah, as I said, they are all identical, syntax is the only thing that differs. I thought you knew the trick and was just looking for the source-code :) I would've explained the trick as well.
    – Berriel
    May 3, 2020 at 17:54

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