# Calculate power with fixed (constant) exponent

I have a case where I need to calculate x^y a vast number of times where y is a constant and x is guaranteed to be a valid number.

How can this be done more efficiently that Pow(double x, double y), which will perform various checks and evaluations?

I am looking to precalculate the y transformation.

EDIT

Both are real numbers. x = 0 ... 4,000,000,000.

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Is y an integer? Or at least a rational number? –  D Stanley Oct 23 '12 at 21:12
What is the range of x ? –  Paul R Oct 23 '12 at 21:16
Can you specify in advance which x values you want to solve for? e.g. 0,0.5,1,2.5,...,4000000000 ? –  Bitwise Oct 23 '12 at 21:26
I won't know in advance what x is. It could be any real number in the range I gave. –  IanC Oct 23 '12 at 21:28

Remember this equiality:

``````x^y = exp(y * ln(x))
``````

So you can skip `Pow` and use `exp` and `ln`.

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Not sure if this would be faster. `exp(...)` is still essentially a type of `pow` anyway, just with base `e`. –  arshajii Oct 23 '12 at 21:13
@A.R.S. I don't know either... but (maybe I'm wrong) I think `exp` and `ln` are "hard wired" in many programming language; anyway, that may be the way the machine solves it. On the other hand, `exp` is defined for any real number and `ln` is defined for any positive number, so the validation can be performed "by hand" before the evaluation. –  Barranka Oct 23 '12 at 21:17
Thanks. This executes is 67% of the time of Pow. –  IanC Oct 23 '12 at 21:30
@IanC really? wow! Didn't expected that (I'll stad replacing this function in my own code)... By the way, which programming language are you using? –  Barranka Oct 23 '12 at 21:32
@Barranka: Depending on the inputs, this can lose as many bits of accuracy as there are bits in the written exponent of the result. For example, if the result is on the order of 2^64, this can be the difference between getting an answer with a relative error of approximately 2^-53 and getting and answer with a relative error 2^-47. For some purposes that's close enough, and for some purposes it isn't. –  Stephen Canon Oct 31 '12 at 15:15

You cannot. Although y is a constant, x is a variable so there is nothing you can do. I wouldn't worry about it though. the pow() method is very well optimized.

The only thing you can do is to pre calculate the values for many different x's, and save them in a dictionary, unless they can get really big.

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I will use dictionaries where possible. I tested, and they're a bit over 3 times faster than the Pow() function. –  IanC Oct 23 '12 at 21:38

There is no faster way in java, since it doesn't support vector operations or at least has a hard time optimizing the code to use them because there a no good parallel annotations.

You should probably try to use a native libary and call it with JNI.

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If you know `y`, maybe you can decompose it into a multiplication of smaller numbers, and compute powers of powers. For instance, if `y = 6` you could do

``````y = 2 * 3
power = pow( pow(x, 3), 2)
``````

Don't know if it will be faster though.

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I'm sure that would be slower because of multiple powers. –  IanC Oct 23 '12 at 21:20
Even if the "pow" function is redeveloped to take prime decomposition into account? I would say knowing that beforehand could speed things up –  alestanis Oct 23 '12 at 21:22
Potentially. I don't know how to do that, though, hence my question :) –  IanC Oct 23 '12 at 21:23
Oh, doesn't work anymore (see question edit): y is real –  alestanis Oct 23 '12 at 21:23