This is not really a trivial question. Let me try to explain:
There are several tools on different OS to do exactly what you want, but those tools are usually part of a bigger environment. Every instruction is translated into a certain number of cycles, depending on the CPU the compiler ran on, and the CPU the program was executed.
I can't give you a definitive answer, because I do not have enough data to pass my judgement on, but I work for IBM in the database area and we use tools to measure cycles and instructures for our code and those traces are only valid for the actual CPU the program was compiled and was running on.
Depending on the internal structure of your CPU's piplining and on the effeciency of your compiler, the resulting code will most likely still have cache misses and other areas you have to worry about. (In that case you may want to look into FDPR...)
If you want to know how many cycles your program needs to run on your CPU (which was compiled with your compiler), you have to understand how the CPU works and how the compiler generarated the code.
I'm sorry, if the answer was not sufficient enough to solve your problem at hand. You said you are using gcc on an x86 arch. I would work with getting the assembly code mapped to your CPU.
I'm sure you will find some areas, where gcc could have done a better job...