# SciPy zeta function returns wildly large value

SciPy docs on the zeta function states:

y=zeta(x,q) returns the Riemann zeta function of two arguments: sum((k+q)**(-x),k=0..inf)

Giving the parameters `x=2, q=0` we should get `sum((k)**(-2),k=0..inf)` which according to the wiki entry on Riemann zeta function should give approximately 1.645

Yet SciPy gives the following

``````>>> from scipy.special import zeta
>>> zeta(2,0)
1.7976931348623157e+308
``````

Am I missing something or is scipy zeta function broken?

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notice the summation on the scipy page starting from 0, not 1 as it usually is defined –  ev-br Feb 19 '12 at 23:30
That may explain why it results in double max, I'll look into the source code –  Gareth A. Lloyd Feb 19 '12 at 23:34
check the updated answer. I'm ready to bet 25 to 1 it's just that. –  ev-br Feb 19 '12 at 23:43

The docstring for scipy.special.zeta says:

``````y=zeta(x,q) returns the Riemann zeta function of two arguments:
sum((k+q)**(-x),k=0..inf)
``````

According to the article in wikipedia, this is the Hurwitz zeta function, "which coincides with the Riemann zeta function when q = 1" (not q=0). And indeed it does:

``````In [3]: zeta(1.5, 1)
Out[3]: 2.6123753486854882

In [4]: zeta(2, 1)
Out[4]: 1.6449340668482266

In [5]: zeta(3, 1)
Out[5]: 1.202056903159594

In [6]: zeta(4,1)
Out[6]: 1.0823232337111381

In [7]: np.pi**4 / 90
Out[7]: 1.082323233711138
``````
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I ended up realising this this morning, thanks for writing this up into an answer. –  Gareth A. Lloyd Feb 20 '12 at 22:33
``````#!/usr/bin/python
import numpy as np

def mzeta(x,q,N=100):
s=0
for j in np.arange(1,N):
s+= 1./(1.*j+1.*q)**x
return s

for N in [100, 500, 1000, 5000, 15000]:
print mzeta(2.,0.,N), np.pi**2/ 6
``````

produces

``````br@ratatoskr:~/sweethome/temp\$ ./mzeta.py
1.63488390018 1.64493406685
1.64293206551 1.64493406685
1.64393356668 1.64493406685
1.64473404685 1.64493406685
1.64486739796 1.64493406685
``````

Notice that the summation here starts from `1`

UPD: Indeed, it seems to be the `j=0` value at the sum:

``````print "*****"
x, q=2, 0.1
print mzeta(x,q,10000) + 1./q**x, zeta(x,q)
``````

which gives

``````*****
101.433199147 101.433299151
``````
-
Thank you for your keen observation. –  Gareth A. Lloyd Feb 19 '12 at 23:53