This isn't really an answer, but kind of an extended comment on other peoples' answers.
Inline assembly is still used to access CPU features. For instance, in the ARM chips used in cell phones, different manufacturers distinguish their offerings via special features that require unusual machine language instructions that would have no equivalent in C/C++.
Back in the 80s and early 90s, I used inline assembly a lot for optimizing loops. For instance, C compilers targeting 680x0 processors back then would do really stupid things, like:
calculate a value and put it in data register D1
PUSH D1, A7 # Put the value from D1 onto the stack in RAM
POP D1, A7 # Pop it back off again
do something else with the value in D1
But I haven't needed to do that in, oh, probably fifteen years, because modern compilers are much smarter. In fact, current compilers will sometimes generate more efficient code than most humans would. Especially given CPUs with long pipelines, branch prediction, and so on, the fastest-executing sequence of instructions is not always the one that would make most sense to a human. So you can say, "Do A B C D in that order", and the compiler will scramble the order all around for greater efficiency.
Playing a little with inline assembly is fine for starters, but if you're serious, I echo those who suggest you move to a "real" assembler after a while.