And usually is there much performance-gain by doing this in asm instead of C/C++ with some latest optimized compiler?
It's more difficult and more time-consuming to write asm: because each asm instruction is simpler than a HLL statement, you need more asm instructions to implement the same functionality. Writing in assembly has additional complications, e.g. that there's only a small number of registers.
Additionally, there are many ways to write assembly to achieve the same thing: for example,
mov eax,0 and
xor eax,eax with both write zero into the
eax register, but one is faster than the other. Furthermore, the sequence of asm instructions makes a difference to how fast it runs: a non-obvious or a longer sequence of instructions may be faster if it matches to keep several CPU pipelines busy.
Writing optimal assembly is compute-intensive: working out how long various possibilities might take, based on cycle-counting, accounting for pipelining, etc. Such computation is done by an optimizing compiler, which can probably do it better (faster and more accurately) than you can.
http://www.amazon.com/Zen-Code-Optimization-Ultimate-Software/dp/1883577039 is a very interesting read, but by the end of the book, where it's starting to talk about Pentium-class CPUs, you can see that writing optimal assembly is getting complicated.
If you're not happy with your compiler's output, you might consider getting a better compiler: for example Intel's compiler produces (or at least used to produce) more-optimized than many other compilers, and included better support for specific CPUs, unusual opcodes, maybe had better run-time libraries, etc.