With all respect: I think your code and question not only smells a bit, but almost stinks (big smiley here).
1) the variable names indicate actually having string-vectors around; as already mentioned
2) the question of individual compares vs. a concatenated compare raises the question of how you define equality of your string-tuples; also already mentioned.
But what strikes me most:
3) To me that looks like a typical case of "premature optimization" and counting CPU cycles at the wrong place.
If you really care for the performance, forget about the cost of 3 individual compares against a single compare. Instead:
How about the added overhead of creating two concatenated strings ?
(str11 + str12 + str13) = (str21 + str22 + str23)
Lets analyze that w.r.t. to the memory manager and operations to be done. On the low level, that translates is 4 additional memory allocations, 2 additional strcpy's, and either another 4 additional strcat or strcpy (depending on how the VM does it; but most would use another strcpy) operations. Then a single compare is called for, which does not first count the characters using strlen; instead it either knows the size in advance (if the object header also includes the number of chars, which is likely) or it simply runs up to a 0-byte. That is called once vs. 3 times. The actual number of chars to compare is roughly the same (forget about the extra 0-bytes). That leaves us with 2 additional calls to strcmp (a few nS), vs. the overhead I described above (a few uS). If we add up the GC reclamation overhead (0 allocations vs. 4), I'd say that your "optimized" solution can easily be a 100 to 1000 times slower than the 3 strcmps !
Theroretically, the JITter could optimize it or some of it, and actually generate code as suggested by Adam Bellaire, but I doubt that any JIT-developer cares to optimize such code. By the way, the system's string routines (aka String operations) are usually MUCH faster than handcoding, so do not start to loop over individual characters yourself.