I have read that comparisons and branching is slow on GPU. I would like to know how much. (I'm familier with OpenCL, but the question is general also for CUDA, AMP ... )
I would like to know it, before I start to port my code to GPU. In particular I'm interested in finding lowest value in neighborhood ( 4 or 9 nearest neighbors) of each point in 2D array. i.e. something like convolution, but instead of summing and multiplying I need comparisons and branching.
for example code like this ( NOTE: this example code is not yet optimized for GPU to be more readeable ... so partitioning to workgroups, prefeaching of local memory ... is missing )
for(int i=1;i<n-1;i++){ for(int j=1;j<n-1;j++){ // iterate over 2D array
float hij = h[i][j];
int imin = 0,jmin = 0;
float dh,dhmin=0;
// find lowest neighboring element h[i+imin][j+jmin] of h[i][j]
dh = h[i-1][j ]-hij; if( dh<dhmin ){ imin = -1; jmin = 0; dhmin = dh; }
dh = h[i+1][j ]-hij; if( dh<dhmin ){ imin = +1; jmin = 0; dhmin = dh; }
dh = h[i ][j-1]-hij; if( dh<dhmin ){ imin = 0; jmin = -1; dhmin = dh; }
dh = h[i ][j+1]-hij; if( dh<dhmin ){ imin = 0; jmin = +1; dhmin = dh; }
if( dhmin<-0.00001 ){ // if lower
// ... Do something with hij, dhmin and save to h[i+imin][j+jmin] ...
}
} }
- Would it be worth to port to GPU despite a lot of
if
branching and comparison? ( i.e. if this 4-5 comparisons per elemet would be 10x slower than the same 4-5 comparisons on CPU it would be a bottleneck ) - is there any optimization trick how to minizmize
if
branching and comparison slow down?
Which I used in this hydraulic errosion code: http://www.openprocessing.org/sketch/146982