which code-optimization make sense
from a compiler perspective?
All the ones that a compiler can't reason about, because a compiler is very dumb and Java doesn't have "design by contract" (which, hence, cannot help the dumb compiler reason about your code).
For example if you're crunching data and using use int or long arrays, you may know something about your data that is IMPOSSIBLE for the compiler to figure out and you may use low-level bit-packing/compacting to improve the locality of reference in that part of your code.
Been there, done that, saw gigantic speedup. So much for the "super smart compiler".
This is just one example. There are a huge number of cases like this.
Remember that a compiler is really stupid: it cannot know that if ( Math.abs(42) > 0 ) will always return true.
This should give some food for thoughts to people that think that those compilers are "smart" (things would be different here if Java had DbC, but it doesn't).
what best practices there are for:
vmargs, heap and other stuff passed to
the JVM for initialization. How do I
get the right values here? Is there
any formula or is it try and error?
The real answer is: there shouldn't be. Sadly the situation is so pathetic that such low-level hackery is needed, due to serious failure on Java's part. Oh, one more "tiny" detail: playing with VM fine-tuning only works for server-side app. It doesn't work for desktop apps.
Anyone who has worked on Java desktop applications installed on hundreds or thousands of machines, on various OSes knows all too well what the issue is: full GC pauses making your app look like it's broken. The Apple VM on OS X 10.4 comes to mind for it's particularly afwul, but ALL the JVMs are subject to that issue.
What is worse: it is impossible to "fine tune" the GC's parameters across different OSes / VMs / memory configuration when your application is going to be run on hundreds/thousands of different configuration.
Anyone disputing that: please tell me how you "fine tune" your app knowing that it is going to be run both on octo-cores Mac loaded with 20 GB of ram (I've got users with such setups) and old OS X 10.4 PowerBook that have 768 MB of ram. Please?
But it is not bad: you should not, in the first place, have to be concerned with super-low-level detail like GC "fine tuning". The very fact that this is hinted to is a testimony to one area where Java has a major issue.
Java fans will keep on saying "the GC is super fast, object creation is cheap" while this is blatantly wrong. There's a reason with Trove' TIntIntHashMap runs around circles an HashMap<Integer,Integer>.
There's also a reason why at every new JVM release you'll get countless release notes explaining why -XXGCHyperSteroidMultiTopNotch offers better performance than the last "big JVM param" that every cool Java programmer had to know: maybe the JVM wasn't that great at GC'ing after all.
So to answer your question: how do you speed up Java programs? Easy, do like what the Trove guys did: stop needlessly creating gigantic amount of objects and stop needlessly auto(un)boxing primitives because they will kill your app's perfs.
A TIntIntHashMap OWNS the default HashMap<Integer,Integer> for a reason: for the same reason my apps are now much faster than before.
I stopped believing in crap like "object creation costs nothing" and "the GC is super-optimized, don't worry about it".
I'm using Java to crunch data (I know, I'm a bit crazy) and the one thing that made my app faster was to stop believing all the propaganda surrounding the "cheap object creation" and "amazingly fast GC".
The truth is: INSTEAD OF TRYING TO FINE-TUNE YOUR GC SETTINGS, STOP CREATING THAT MUCH GARBAGE IN THE FIRST PLACE. This can be stated this way: if changing the GC settings radically changes the way your app run, it may be time to wonder if all the needless junk objects your creating are really needed.
Oh, you know what, I'm betting we'll see more and more release notes explaining why Java version x.y.z's GC is faster than version x.y.z-1's GC ;)