I have a program on which I was trying to perform some loop optimization It's written in C++ and compiled using gcc
eventually using a profiler I tracked down more than half the execution time of the loop to the line
double x_component = in.input_vector[in.dimension_to_process] - \ (center_of_bin_0 + (double) nn * grid_distance);
Everything on this line is of type double with the exception of the loop index nn which is of type long unsigned int
the cast from long unsigned int to double generates the assembly instruction fxtod which the profiler flagged
As a test I removed the reference to nn from the line, thus removing the cast from unsigned int to double and the execution time of the loop reduced by almost a half, in a loop that performs about a dozen floating point operations on an Ultrasparc IV processor. I confirmed that this is also the case on an Ultrasparc II,
Is it normal for a cast from int to double to be much more expensive that a cache miss, let alone a floating point multiply ? And if so what does everyone else normally do about it ?
A lookup table for all possible values of nn (which in this case have a known limited range) would be faster than this