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I am trying optimize some code that is going to be used on an ARM architecture.

The target architecture is an ARM9 architecture that doesn't support FPcalculations, and the testing configuration is an ARM4 emulation in VS2008. I have tried to run some comparisons to see if it's really worth attempting to change all divisions into multiplications and I've ran into some interesting results that I don't understand.

Here is the code that I ran:

for(int i = 0; i < TESTRATE; i++){
    num = 356.0f * 0.06666666666666666666666666666667f;
}
QueryPerformanceCounter( &end );
double result1 = end.QuadPart - start.QuadPart;

QueryPerformanceCounter( &start );
for(int i = 0; i < TESTRATE; i++)
    num2 = 356.0f / 15.0f ;
QueryPerformanceCounter( &end );
double result2 = end.QuadPart - start.QuadPart;

And this is the result:

Calculation Time 1: 1485016.000000, result : 23.733335

Calculation Time 2: 1068092.000000, result : 23.733334

Calculation 1 is when done just multiplications and Calculation 2 is divisions. The result shows that divisions are actually faster and on better cases the difference between the two calculations become negligible. Here the TESTRATE = 1000000.

I know that multiplications have a fixed cycle where as divisions can take up to 24 cycles at worst case, but is this the same for ARM architecture? In my code that I am trying to port I have various divisions that have dynamic denominators so I was considering using a fast reciprocal function to get the reciprocal and multiply it instead of dividing it, and based on the result from the test above I'm thinking it might not render the result that I am expecting. Can anybody clarify this for me?

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1  
This doesn't look like it has anything to do with ARM, the code looks like straight Win32 code and thus would run natively on your PC's processor, not testing anything of relevance. Of course instruction timing varies vastly across architectures! –  unwind Apr 18 '13 at 9:44
    
the compiler is just going to precompute the values and do a lot of load/store operations. Try running multiple times and/or revert the order of the multiplication and division. So, I don't think the timings have anything to do with multiplication or division. –  steabert Apr 18 '13 at 9:59
    
I've tried reversing the order of the calculations and more calculations, and the results were reversed accordingly. The divisions were still faster than the multiplications. :( –  user2294392 Apr 18 '13 at 10:08
2  
"356.0f / 15.0f" is fixed at compile time, compiler shouldn't create anything for that but static loading. check the produced binary. –  auselen Apr 18 '13 at 10:23
    
Actually, all calculations are fixed. A compiler could just eliminate both loops. –  artless noise Apr 18 '13 at 14:03

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