Firstly, the compiler doesn't change float types unless it has to, and never in storage declarations.
float will be no slower than
double, but if you really want fast processing, you need to look into either using a compiler that can generate SSE2 or SSE3 code or you need to write your heavy-processing routines using those instructions. IIRC, there are tools that can help you micromanage the processor's pipeline if necessary. Last I messed with this (years ago), Intel had a library called IPP that could help as well by vectorizing your math.
I have never heard of an architecture where
float was slower than
double, if only for the fact that memory bandwidth requirements double if you use
double. Any FPU that can do a single-cycle
double operation can do a single-cycle
float operation with a little modification at most.
Mark's got a good idea, though: profile your code if you think it's slow. You might find the real problem is somewhere else, like hidden typecasts or function-call overhead from something you thought was inlined not getting inlined.