The register keyword can be used to suggest to the compiler that it uses a registers for the iterator and the number of iterations:
register float i;
register int numIterations = ITERATIONS;
but that will not help much. First of all, the compiler may or may not use your suggestion. Next, values will still need to be placed on the stack for the call to fib(), and, finally, depending on what functions you call within your loop, code in the procedure are calling could save your register contents in the stack frame at procedure entry, and restore them as part of the code implementing the procedure return.
If you really need to make every instruction count, then you will need to write machine code (using an assembly language). That way, you have direct control over your register usage. Assembly language programming is not for the faint of heart. Assembly language development is several times slower than using higher level languages, your risk of inserting bugs is greater, and they are much more difficult to track down. High level languages were developed for a reason, and the C language was developed to help write Unix. The minicomputers that ran the first Unix systems were extremely slow, but the reason C was used instead of assembly was that even then, it was more important to have code that took less time to code, had fewer bugs, and was easier to debug than assembler.
If you want to try this, here are the answers to a previous question on stackoverflow about resources for ARM programming that might be helpful.
One tactic you might take is to isolate your performance-critical code into a procedure, write the procedure in C, the capture the generated assembly language representation. Then rewrite the assembler to be more efficient. Test thoroughly, and get at least one other set of eyeballs to look the resulting code over.