# Why would adding a line of computation decrease runtime?

When testing an answer to one of my related questions, I wrote this:

``````public static long timeDouble(int iters) {
long start = System.currentTimeMillis();
for (; iters >=0; iters--) {
double a = 1.2, b = 2.246, c = 4.4924, d = 8.98488, e = 17.969772;
a = Math.sqrt(a);
b = Math.cos(b);
c = Math.sin(c);
d = Math.tan(d);
e = a + b - c * d / (e + 1);
e = Math.pow(e, e);
}
return System.currentTimeMillis() - start;
}
``````

This method's run time was an average of 414ms (using 1000000 iterations). However, something possessed me to add this line:

``````e = e + d - c * b / (a + 1);
``````

immediately before `e = Math.pow(e, e);` With the addition of this line, the time for calculating this method dropped to an average of 206 ms (using the same test conditions).

What is causing this?

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Maybe the value of `e` is decreased by that equation, and then `Math.pow(e, e)` will take less time to execute. –  Eng.Fouad Jul 11 '12 at 16:24
It's probably due to the fact that Math.pow(e, e) is using less processor cycles, perhaps due to the fact that e is smaller. –  Sam I am Jul 11 '12 at 16:25
The above posters are probably correct, but I'd generally steer away from this kind of microbenchmarking, it has quite a few pitfalls. kdgregory.com/index.php?page=java.microBenchmark –  Thor84no Jul 11 '12 at 16:29

The values in the loop are constant, they don't depend on `iters`. and therefore the values are the same all the time.

``````    double a = 1.2, b = 2.246, c = 4.4924, d = 8.98488, e = 17.969772;
a = Math.sqrt(a);
b = Math.cos(b);
c = Math.sin(c);
d = Math.tan(d);
e = a + b - c * d / (e + 1);
e = Math.pow(e, e);
``````

In the first version you were calculating `e` to be the value 17.969772 ^ 17.969772. In the second you are calculating `e` to be the value 0.69761863561124537 ^ 0.69761863561124537. This is (by your own evidence) easier to computer.

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