How should I compute log to the base two in python. Eg. I have this equation where I am using log base 2
import math
e = (t/T)* math.log((t/T)[, 2])
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It's good to know that but also know that



If all you need is the integer part of log base 2, math.frexp() could be pretty efficient:
The C function it calls just grabs and tweaks the exponent. Splainin: frexp() returns a tuple (mantissa, exponent). For integral powers of 2 the exponent is one more than you might expect. For example 32 is stored as 0.5x2⁶. This explains the 


Using numpy:



http://en.wikipedia.org/wiki/Binary_logarithm






If you are on python 3.4 or above then it already has a builtin function for computing log2(x)
If you are on older version of python then you can do like this



logbase2(x) = log(x)/log(2) 


log_base_2(x) = log(x) / log(2) 


Don't forget that log[base A] x = log[base B] x / log[base B] A. So if you only have



math.log()
call. Have you tried it? – martineau Sep 15 '10 at 18:44