Sure it's a good idea to modularize the code, and it shouldn't make a noticeable difference in performance.
Except. It could very well make a big difference, for a reason having to do not with technology, but with Human Nature.
It's natural to look at lines like
a = b + c;
and think they cost about the same, which they might, but probably don't.
The problem is, methods are magnets for additional code, including additional method calls.
Then what I find when doing performance tuning is I grab stack samples, and it's not unusual for them to be 20-30 levels deep.
If I examine each call on a stack sample, nearly every one makes perfect sense.
All it takes is one not-really-necessary call out of those 20-30 to completely blow performance.
If I see such a thing on as few as two(2) stack samples, I know I've found a big opportunity for optimization.
For example, if I take three samples and see that on two of them, the fraction of time that could be saved is in the vicinity of 2/3.
Put another way, the speedup factor could be in the range of three times.