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The OpenTK libraries, and with them, MonoTouch and MonoDroid, contain the method LengthFast, which should calculate an approximation of a vector's length without the use of Math.Sqrt (which seems to be known as slow). LengthFast uses MathHelper.InverseSqrtFast, a quite interesting method which should give a fast approximation of the square root (see lines 172 and 196 of http://www.opentk.com/files/doc/_math_helper_8cs_source.html).

I created a small benchmark which invokes both calculations 100'000'000 times, with vector lengths between about 1 and 100.

On Windows 7 / Intel i7-2600 3.40 GHz, I got:

Length: 2947 ms

LengthFast: 4754 ms

On an iPad 3 with MonoTouch, I got:

Length: 51575 ms

LengthFast: 41252 ms

So, LengthFast is much slower on the Intel CPU, on the iPad's ARM it is slightly faster.

Any explanation for this? Is that the result of the Intel CPU being able to calculate the square root 'natively' (without the use of software approximation)? Shouldn't LengthFast be always faster, at least a little bit?

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If you use MS .NET on Windows you should add a .net tag (or ` mono tag if you used Mono on Windows) since the question is more targeted at those results than the one for MonoTouch. –  poupou Nov 16 '12 at 21:29
    
Okay, done. Thank you –  cheeesus Nov 17 '12 at 11:54

2 Answers 2

up vote 1 down vote accepted

All Math members are really fast. Don't try to speed up .NET math code. On a ARM processor it may be faster because there are some missing X86/X86_64 commands which are required for the same implementation on a ARM processor, so the code is different.

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Thank you! Maybe the OpenTK people could optimize LengthFast to use Length if running on an ARM processor. –  cheeesus Nov 18 '12 at 8:56
    
Of course I meant 'if running on an x86 processor'.. –  cheeesus Nov 18 '12 at 13:19

If you look at the source of LengthFast it's basically the same bit hack as the one in Quake 3.

The algorithm is optimized for x86 instructions, not so much for ARM instructions. It's been documented that this algorithm is actually quite a bit slower on ARM:

http://omcfadde.blogspot.com/2011/02/math-function-micro-optimization.html

Clearly it can be seen that this micro-optimization is an excellent for x86 and x86_64. Don't try it on ARM; it's far slower than just taking the hit on 1.0 / sqrt(x)

EDIT

Turns out I read it backwards... could be the JIT messing with your timings. Try invoking Length and LengthFast once before going into the timed loop to make sure both methods and the MathHelper class get initialized and JITted. It shouldn't make that big of a difference, but it's a starting point. There's no JIT with MonoTouch, so it's still going to be a factor.

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The question results shows that the unoptimized code is faster than the optimized version for Intel processor. The ARM (w/MonoTouch) behave like you would expect, i.e. the optimization making it faster. –  poupou Nov 16 '12 at 21:36
    
oh whoops, got it backwards... hmmm that's strange. –  Robert Rouhani Nov 16 '12 at 21:38
    
@RobertRouhani I tried it again with your suggestion, i.e. making sure that everything is JITted before the Stopwatches are started. Still about the same results. Length is definitely faster than LengthFast on x86/.NET/Windows. –  cheeesus Nov 17 '12 at 12:00
2  
It's possible the JIT takes advantage of SSE instructions and uses the rsqrtss instruction, which is supposed to be faster than the "fast" algorithm... I'm going to try and test this out... –  Robert Rouhani Nov 17 '12 at 19:23

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