It is well-known that the processor instruction for multiplication takes several times more time than addition, division is even worse (UPD: which is not true any more, see below). What about more complex operations like exponent? How difficult are they?
Motivation. I am interested because it would help in algorithm design to estimate performance-critical parts of algorithms on early stage. Suppose I want to apply a set of filters to an image. One of them operates on 3×3 neighborhood of each pixel, sums them and takes atan. Another one sums more neighbouring pixels, but does not use complicated functions. Which one would execute longer?
So, ideally I want to have approximate relative times of elementary operations execution, like multiplication typically takes 5 times more time than addition, exponent is about 100 multiplications. Of course, it is a deal of orders of magnitude, not the exact values. I understand that it depends on the hardware and on the arguments, so let's say we measure average time (in some sense) for floating-point operations on modern x86/x64. For operations that are not implemented in hardware, I am interested in typical running time for C++ standard libraries.
Have you seen any sources when such thing was analyzed? Does this question makes sense at all? Or no rules of thumb like this could be applied in practice?