How you should optimize the search depends on what algorithm your grep implementation uses. The "traditional" algorithm for egrep is to compile the pattern into a deterministic finite automaton. If you don't know what that is, don't worry: the important thing is that the compilation takes a little while, but once that's done it's quite fast, and its speed doesn't depend on the complexity of the pattern it's looking for. In fact, once the compilation is done egrep is actually faster than fgrep -- meaning that fgrep is fastest on small files, egrep is fastest on large files.
At least, that's the situation for the traditional implementations of [ef]grep. I think most modern implementations are adaptive, and will switch algorithms depending on the situation (e.g. I think modern fgreps will switch into compiled DFA mode for large enough files). To find out what's fastest for your implementation(s), you really need to try some timed experiments.
I can give you a few recommendations, though: First, avoid running the search more than once (e.g. running fgrep for each word), because that'll mean scanning the file multiple times. Second, don't worry about minimizing the number of strings it's searching for, because if you're in the best possible mode that won't matter anyway. Third, use @Lev's suggestion of
-m to make it stop after it's found what it needs to (although I'm pretty sure that'll be single search for both words with