When I use this random generator: numpy.random.multinomial, I keep getting:

ValueError: sum(pvals[:-1]) > 1.0

I am always passing the output of this softmax function:

def softmax(w, t = 1.0):
    e = numpy.exp(numpy.array(w) / t)
    dist = e / np.sum(e)
    return dist

except now that I am getting this error, I also added this for the parameter (pvals):

while numpy.sum(pvals) > 1:
    pvals /= (1+1e-5)

but that didn't solve it. What is the right way to make sure I avoid this error?

EDIT: here is function that includes this code

def get_MDN_prediction(vec):
    coeffs = vec[::3]
    means = vec[1::3]
    stds = np.log(1+np.exp(vec[2::3]))
    stds = np.maximum(stds, min_std)
    coe = softmax(coeffs)
    while np.sum(coe) > 1-1e-9:
        coe /= (1+1e-5)
    coeff = unhot(np.random.multinomial(1, coe))
    return np.random.normal(means[coeff], stds[coeff])
  • 1
    Have you checked all the values are finite?
    – joeln
    Apr 24, 2014 at 0:27
  • What is the value of pvals.sum() as you pass it to np.random.multinomial?
    – askewchan
    Apr 24, 2014 at 2:18
  • There are a few things you are not showing, like what is the function A, and the full traceback (including the actual code, sum(pvals[:-1]) > 1.0` is not here).
    – Davidmh
    Apr 24, 2014 at 10:04
  • A was numpy.array, I've replaced it. Apr 24, 2014 at 16:08
  • If you use np.random.choice instead of np.random.multinomial, you will get no error and get the same result.
    – greentec
    Oct 24, 2019 at 15:09

4 Answers 4


I also encountered this problem during my language modelling work.

The root of this problem rises from numpy's implicit data casting: the output of my sorfmax() is in float32 type, however, numpy.random.multinomial() will cast the pval into float64 type IMPLICITLY. This data type casting would cause pval.sum() exceed 1.0 sometimes due to numerical rounding.

This issue is recognized and posted here


I know the question is old but since I faced the same problem just now, it seems to me it's still valid. Here's the solution I've found for it:

a = np.asarray(a).astype('float64')
a = a / np.sum(a)
b = np.random.multinomial(1, a, 1)

I've made the important part bold. If you omit that part the problem you've mentioned will happen from time to time. But if you change the type of array into float64, it will never happen.


Something that few people noticed: a robust version of the softmax can be easily obtained by removing the logsumexp from the values:

from scipy.misc import logsumexp

def log_softmax(vec):
    return vec - logsumexp(vec)

def softmax(vec):
    return np.exp(log_softmax(vec))

Just check it:

print(softmax(np.array([1.0, 0.0, -1.0, 1.1])))

Simple, isn't it?

  • 1
    I get a sum of 1.0000000000000002 for softmax(np.array([1/20.]*20)).sum(). Jul 11, 2017 at 16:41

The softmax implementation I was using is not stable enough for the values I was using it with. As a result, sometimes the output has a sum greater than 1 (e.g. 1.0000024...).

This case should be handled by the while loop. But sometimes the output contains NaNs, in which case the loop is never triggered, and the error persists.

Also, numpy.random.multinomial doesn't raise an error if it sees a NaN.

Here is what I'm using right now, instead:

def softmax(vec):
    vec -= min(A(vec))
    if max(vec) > 700:
        a = np.argsort(vec)
        aa = np.argsort(a)
        vec = vec[a]
        i = 0
        while max(vec) > 700:
            i += 1
            vec -= vec[i]
        vec = vec[aa]
    e = np.exp(vec)
    return e/np.sum(e)

def sample_multinomial(w):
       Sample multinomial distribution with parameters given by softmax of w
       Returns an int    
    p = softmax(w)
    x = np.random.uniform(0,1)
    for i,v in enumerate(np.cumsum(p)):
        if x < v: return i
    return len(p)-1 # shouldn't happen...

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