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I noticed the following behavior while using NMinimize in Mathematica. The first invocation of the objective function is with variable names, rather than with points from the space, as one would expect.

So for example if my objective function is a module, this module is called only once, evaluated symbolically and then in further iterations, this symbolic expression is evaluated with points from the variable space.

This behavior could slow down the computation significantly for a large expression. Is there any way to get around this? Has anyone else experienced this? Is there any way to speed up NMinimize then?

Example:

dummy[x_] := Module[
  {},
  Print["x=", x ];
  4 x^4 - 4 x^2 + 1
  ]

In: NMinimize[dummy[x], x]
Out:x=x
{0., {x -> 0.707107}}
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Welcome to StackOverflow – Mr.Wizard Apr 27 '11 at 21:11
1  
Depending on the module, this behaviour actually speeds up the evaluation. In the simple example you gave, it means that it only needs to make the function call once. But yes, for some functions, a symbolic or exact integer/rational (or exact numeric like Pi or Sqrt[2]) call can be incredibly slow. In which case restrict your function as suggested by @Mr.Wizard. – Simon Apr 27 '11 at 22:31
2  
As an aside: it's interesting to note that NMinimize[Unevaluated[dummy[x]], x] calls dummy with x=x 4 times and never numerically. – Simon Apr 27 '11 at 22:33

Have you tried defining your function to only evaluate for numeric input?

dummy[x_?NumericQ] := ...
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2  
The reason for this is that NMinimize does not hold any of its arguments, so dummy[x] evaluates normally before it even gets into NMinimize-specific code. – Brett Champion Apr 27 '11 at 21:50

For some dummy functions an "exact numeric" call can also be very slow. Example finding the FixedPoint[Sqrt,2.] is fast, but FixedPoint[Sqrt,2] will go until something breaks!

By "exact numeric" I mean things like Integers, Rationals, and numeric symbolics like Sqrt[2], Cos[5], Pi, EulerGamma, etc...
that is, things that will return a numerical value when acted upon by N[].

In this case it is probably better to use

dummy[_?InexactNumberQ] := ....

or even

dummy[_?MachineNumberQ] := ....
share|improve this answer
    
How would this compare to using N explicitly on arguments? – Mr.Wizard Apr 28 '11 at 1:11
1  
I prefer NumericQ, especially since adding Element[x, Integers] will fail with InExactNumberQ and setting WorkingPrecision -> 20 will fail with MachineNumberQ. – Brett Champion Apr 28 '11 at 3:12

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