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I'm working on benchmarking some programs in some different languages, and I have gotten some very strange results while benchmarking my Java implementations of NBody force simulation (O(n^2) version).

I have two implementations, both based on a structure of parallel arrays, that perform the force computation. The difference between the two files is that one of the implementations avoids allocating an entire array for Fx, Fy, Ax, Ay and instead performs those computations in local variables or inline within the loop.

For some reason I can't figure out, the implementation with the extra arrays instead of the local variables is running slightly faster.

The diff of the two files is below. Any thoughts on what is causing this would be appreciated, thanks.

<       double[] fx = new double[4];
<       double[] fy = new double[4];
<       double[] ax = new double[4];
<       double[] ay = new double[4];
<               fx[i] = 0;
<               fy[i] = 0;
>               double fx = 0; 
>               double fy = 0;
<                       fx[i] = fx[i] + (force*dx/r);
<                       fy[i] = fy[i] + (force*dy/r);
>                       fx += (force*dx/r);
>                       fy += (force*dy/r);
<               ax[i] = fx[i]/m[i];
<               ay[i] = fy[i]/m[i];
<               vx[i] = vx[i] + (DT*ax[i]);
<               vy[i] = vy[i] + (DT*ay[i]);
>               vx[i] = vx[i] + (DT*fx/m[i]);
>               vy[i] = vy[i] + (DT*fy/m[i]);
share|improve this question
My only thought that could explain this is that the doubles in the allocated array are allocated once and then merely added and subtracted from, whereas the temporary variables have to be allocated to memory N^2 times. – cargo8 Apr 22 '13 at 23:19
Can you define "slightly" a bit more closely? If the difference in the timings is small, it might be useful to look closely at your timing approach in case the observed difference is a result of the timing rather than of the program differences. – Simon Apr 22 '13 at 23:21
I'm 90% sure that the cause of the slowdown was as I remarked above. The n^2 allocation of a new double rather than simply adding + mathing the numbers in the array caused the significant slowdown. – cargo8 Apr 23 '13 at 1:54

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