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Using numpy, I have this definition of a function:

def powellBadlyScaled(X):
    f1 = 10**4 * X[0] * X[1] - 1
    f2 = numpy.exp(-numpy.float(X[0])) + numpy.exp(-numpy.float(X[1])) - 1.0001
    return f1 + f2

This function is evaluated a huge number of times on an optimization routine. It often raises exception:

RuntimeWarning: overflow encountered in exp

I understand that operand cannot be stored in allocated space for a float. But how can I overcome the problem?

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You'll need to adapt your algorithm. If the value doesn't fit, it doesn't fit. Find a different way to express the calculation that doesn't overflow. – David Heffernan Mar 4 '12 at 22:22
The only sensible thing you can do is look at the asymptotic behaviour of your function. If that is sensible, then above some threshold you can replace the explicit calculation by the asymptotic value. If the asymptotic value is not sensible then the problem is most likely in your choice of algorithm, not in the code. – DaveP Mar 4 '12 at 23:38
DaveP, asymptotic behaviour of exp is exp... – Johan Lundberg Mar 5 '12 at 12:29
up vote 9 down vote accepted

You can use the bigfloat package, with supports arbitrary precision floating point operations.

import bigfloat
# -> BigFloat.exact('2.9676283840236670689662968052896e+2171', precision=100)

Are you using a function optimization framework? They usually implement value boundaries (using penalty terms). Try that. Are the relevant values really that extreme? In optimization it's not uncommon to minimize log(f). (approximate log likelihood etc etc). Are you sure you want to optimize on that exp value and not log(exp(f)) == f. ?

Have a look at my answer to this question: logit and inverse logit functions for extreme values

Btw, if all you do is minimize powellBadlyScaled(x,y) then the minimum is at x -> + inf and y -> + inf, so no need for numerics.

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Exact, in optimization context, and as far as Powell Badly Scaled function is used for test, I impose some box constraints. The script I first ran giving overflows took constraints into account for initialization (some sampling in authorized box), but not in the main routine (I did not check for box constraints any more). Taking constraints into account, operand does not overflows. I will try bigfloat anyway something later. Thanks! – octoback Mar 5 '12 at 12:27

Maybe you can improve your algorithm by checking for which areas you get warnings (it will probably bellow certain values for X[ 0 ],X[ 1 ]), and replacing the result with a really big number. You need to see how your function behaves, I thing you should check e.g. exp(-x)+exp(-y)+x*y

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You can use numpy.seterr to control how numpy behaves in this circumstance:

You can also use the warnings module to control how warnings are or are not presented:

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