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My program spends 90% of CPU time in the std::pow(double,int) function. Accuracy is not a primary concern here, so I was wondering if there were any faster alternatives. One thing I was thinking of trying is casting to float, performing the operation and then back to double (haven't tried this yet); I am concerned that this is not a portable way of improving performance (don't most CPUs operate on doubles intrinsically anyway?)

Cheers

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Kinda depends what powers you are calculating -- please show some code and/or describe your data. –  paddy May 28 '13 at 1:57
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Hardware is faster than software in the general case, that's kind of the point of pow... you can't beat it unless you can place additional restrictions on what you're doing. –  Mehrdad May 28 '13 at 1:58
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This article may be useful: martin.ankerl.com/2012/01/25/… –  Shafik Yaghmour May 28 '13 at 1:58
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What about 2^(y*log2(x))? See: stackoverflow.com/questions/4638473/how-to-powreal-real-in-x86 –  Derek May 28 '13 at 2:01
    
Thanks. This will keep me busy for a while. Will do some profiling and report back. –  Arman May 28 '13 at 2:06

3 Answers 3

up vote 4 down vote accepted

It looks like Martin Ankerl has a few of articles on this, Optimized Approximative pow() in C / C++ being the main one and he links to a second one Optimized pow() approximation for Java, C / C++, and C#.

The first article also links to his microbenchmarks here

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Depending on what you need to do, operating in the log domain might work — that is, you replace all of your values with their logarithms; multiplication becomes addition, division becomes subtraction, and exponentiation becomes multiplication. But now addition and subtraction become expensive and somewhat error-prone operations.

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How big are your integers? Are they known at compile time? It's far better to compute x^2 as x*x as opposed to pow(x,2). Note: Almost all applications of pow() to an integer power involve raising some number to the second or third power (or the multiplicative inverse in the case of negative exponents). Using pow() is overkill in such cases. Use a template for these small integer powers, or just use x*x.

If the integers are small, but not known at compile time, say between -12 and +12, multiplication will still beat pow() and won't lose accuracy. You don't need eleven multiplications to compute x^12. Four will do. Use the fact that x^(2n) = (x^n)^2 and x^(2n+1) = x*((x^n)^2). For example, x^12 is ((x*x*x)^2)^2. Two multiplications to compute x^3 (x*x*x), one more to compute x^6, and one final one to compute x^12.

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Of course, this assumes that ausairman is working with integers. It's unclear whether that's the case. –  jamesdlin May 28 '13 at 2:22
    
@jamesdin: Of course he is. My program spends 90% of CPU time in the std::pow(double,int) function. –  David Hammen May 28 '13 at 6:26
    
Oops, sorry. You're right; I think my brain was on holiday today. >_< –  jamesdlin May 28 '13 at 8:59

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