If the compiler is any good this addition happens in registers and is never stored in memory, at least not in the way you are thinking. Actually a good compiler will see that your program does nothing, manipulating values within a function but never sending those values anywhere outside the function can result in no code.
If you were to:
c = a+b;
Then a good compiler will also never store that value C in memory it will stay in registers, although it depends on the processor as well. If for example compilers for that processor use the stack to pass variables to functions then the value for c will be computed using registers (a good compiler will see that C is always 11 and just assign it) and the value will be put on the stack while being sent to the printf function. Naturally the printf function may well need temporary storage in memory due to its complexity (cant fit everything it needs to do in registers).
Where I am heading is that there is no answer to your question. It is heavily dependent on the processor, compiler, etc. There is no generic answer. I have to wonder what the root of the question is, if you were hoping to probe with a debugger, then this is not the question to ask.
Bottom line, disassemble your program and look at it, for that compile on that day with those settings, you will be able to see where the compiler has placed intermediate values. Even if the compiler assigns a memory location for the variable that doesnt mean the program will ever store the variable in that location. It depends on optimizations.