# Why does addition of two double data values is so expensive?

For my computer science class I had/have an assignment to optimize code that calculates sum of array objects while modifying only inner loop. I managed to get decent optimization using pointers, unroll, and split.

However after I added split optimization, I noticed that addition of two sums (double) takes at least three second which is half the overall run time. How so? Why is double addition so expensive?

Edit: I can't post code because assignment is due in a week and I fear future students might cheat if I post it here. Here is the code that every student has at the start.

``````#include <stdio.h>
#include <stdlib.h>

// You are only allowed to make changes to this code as specified by the comments in it.

// The code you submit must have these two values.
#define N_TIMES     600000
#define ARRAY_SIZE   10000

int main (void)
{
double  *array = calloc(ARRAY_SIZE, sizeof(double));
double  sum = 0;
int     i;

// You can add variables between this comment ...

// ... and this one.

printf("CS201 - Asgmt 4 - your name\n");

for (i = 0; i < N_TIMES; i++) {

// You can change anything between this comment ...

int     j;

for (j = 0; j < ARRAY_SIZE; j++) {
sum += array[j];
}

// ... and this one. But your inner loop must do the same
// number of additions as this one does.

}

// You can add some final code between this comment ...

// ... and this one.

return 0;
}
``````

I changed inner for loop with while loop and I am comparing iterator pointer with array end pointer. Inside the loop I some something similar to

``````sum += iteratorPtr + (iteratorPtr+1) + (iteratorPtr+2);
sum2 += (iteratorPtr+4) + (iteratorPtr+5) + (iteratorPtr+6);
iteratorPtr += 6;
``````

For the final code outside the loop I added "sum += sum2;" so that the code actually "calculates the sum of array objects". It is a requirement. Here are the outputs when running with "time ./assignment"

With "sum +=sum2;"

``````real    0m7.420s
user    0m6.764s
sys     0m0.348s
``````

Without "sum +=sum2;"

``````real    0m3.813s
user    0m3.724s
sys     0m0.016s
``````
-
Are you sure that's your bottleneck? Floating point operations are actually more optimised than integer operations. –  Rapptz Aug 12 '13 at 4:45
Are you saying that a single addition is taking three seconds? If so, I suspect your measurements are wrong. –  Vaughn Cato Aug 12 '13 at 4:46
Can we see the benchmark numbers? –  Borgleader Aug 12 '13 at 4:47
@jM2.me: It's almost certainly not that single addition that's taking the extra time -- it's the compiler "noticing" that `sum2` is never used, so it just skips over the code that calculates it to start with. You've effectively cut the work in half, thereby doubling the speed. (BTW: note that `sum=ptr[0]+ptr[1]+ptr[2];` and `sum2=ptr[4]+ptr[5]+ptr[6];` -- but you're skipping `ptr[3]` and processing ptr[6] twice). –  Jerry Coffin Aug 12 '13 at 5:13
The fact that sum2 is used inside the loop is irrelevant -- the compiler sees that its value is computed, but never used, so it doesn't compute it at all any more. If, for example, you print out `sum` and `sum2` separately after the loop, the speed will probably drop to about the same as when you added them together. –  Jerry Coffin Aug 12 '13 at 5:23