Atomic comes from the Greek ἄτομος (atomos) which means "indivisible". (Caveat: I don't speak Greek, so maybe it's really something else, but most English speakers citing etymologies interpret it this way. :-)
In computing, this means that the operation, well, happens. There isn't any intermediate state that's visible before it completes. So if your CPU gets interrupted to service hardware (IRQ), or if another CPU is reading the same memory, it doesn't affect the result, and these other operations will observe it as either completed or not started.
As an example... let's say you wanted to set a variable to something, but only if it has not been set before. You might be inclined to do this:
if (foo == 0)
foo = some_function();
But what if this is run in parallel? It could be that the program will fetch
foo, see it as zero, meanwhile thread 2 comes along and does the same thing and sets the value to something. Back in the original thread, the code still thinks
foo is zero, and the variable gets assigned twice.
For cases like this, the CPU provides some instructions that can do the comparison and the conditional assignment as an atomic entity. Hence, test-and-set, compare-and-swap, and load-linked/store-conditional. You can use these to implement locks (your OS and your C library has done this.) Or you can write one-off algorithms that rely on the primitives to do something. (There's cool stuff to be done here, but most mere mortals avoid this for fear of getting it wrong.)