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I'm writing a code that needs to run on a server using an old version of python (2.4?) with Numeric instead of numpy, I can't do anything about that. To test the code, I run it with numpy.oldnumeric

I start with an array of float32's, and I store values to them. My values are in the 1.0e50-1.0e60 range, and the array keeps storing them as 'inf'. Even casting a 1.0e39, leads to 'inf'. Aren't floats supposed to max out closer to 1.0e108 ?! How can I preserve these values?

....
import numpy.oldnumeric as N
data = N.zeros(10, 'f')
....
for i in range(10): data[i] = (1.0e38)*pow(10.0,i)
print data[i]

gives

[  9.99999993e+36   9.99999968e+37              inf              inf
          inf              inf              inf              inf
          inf              inf]

Solution: Single precision float (float32) is has a smaller limit than I thought (~3e38), thanks @aka.nice, so I switched from 'f' (float32) to 'dtype=N.float64', which has enough capacity.

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For the record, it seems Numeric doesn't even have double-float precision support.... as a workaround, I'm storing the log10() of my values. #Lame –  zhermes Aug 16 '12 at 19:48
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1 Answer

up vote 4 down vote accepted

You are using single precision floats...
In IEEE 754 single precision, the limit of exponent is 127, giving a max float value of about 2 * 2^127, that is approximately

2^10 > 10^3
2^120 > 10^36
2^127 > 2^7*10^36
2^127 > 100*10^36
2^127 > 10^38

or 3.40282346×10^38 see http://en.wikipedia.org/wiki/IEEE_754

The exact value is 2^128 - 2^104 = 340282346638528859811704183484516925440

Use IEEE 754 double precision (64 bits), the limit is 2^1024-2^971, that is about 1.7976931348623157e308

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