There really isnt a simple "tutorial" on performance, it is a very complex subject and one that even seasoned veterans often dont fully understand. Anyway, to give you more of an idea of what the overhead of "calling" a function is, basically what you are doing is "freezing" the state of your function(in Java there are no "functions" per se, they are all called methods), calling the method, then "unfreezing", where your method was before.
The "freezing" essentially consists of pushing state information(where you were in the method, what the value of the variables was etc) on to the stack, "unfreezing" consists of popping the saved state off the stack and updating the control structures to where they were before you called the function. Naturally memory operations are far from free, but the VM is pretty good at keeping the performance impact to an absolute minimum.
Now keep in mind Java is almost entirely heap based, the only things that really have to get pushed on the stack are the value of pointers(small), your place in the program(again small), and whatever primitives you have local to your method, and a tiny bit of control information, nothing else. Furthermore, although you cannot explicitly inline in Java(though Im sure there are bytecode editors out there that essentially let you do that), most VMs, including the most popular HotSpot VM, will do this automatically for you. http://java.sun.com/developer/technicalArticles/Networking/HotSpot/inlining.html
So the bottom line is pretty much 0 performance impact, if you want to verify for yourself you can always run benchmarking and profiling tools, they should be able to confirm it for you.