On a single-processor machine, if one isn't using virtual memory, x++ (rvalue ignored) is likely to translate into a single atomic INC instruction on x86 architectures (if x is long, the operation is only atomic when using a 32-bit compiler). Also, movsb/movsw/movsl are atomic ways of moving a byte/word/longword; a compiler isn't apt to use those as the normal way of assigning variables, but one could have an atomic-move utility function. It would be possible for a virtual memory manager to be written in such a way that those instructions would behave atomically if a page fault occurs on the write, but I don't think that's normally guaranteed.
On a multi-processor machine, all bets are off unless one uses explicit interlocked instructions (invokable via special library calls). The most versatile instruction which is commonly available is CompareExchange. That instruction will alter a memory location only if it contains an expected value; it will return the value it had when it decided whether or not to alter it. If one wishes to "xor" a variable with 1, one could do something like (in vb.net)
Dim OldValue as Integer
OldValue = Variable
While Threading.Interlocked.CompareExchange(Variable, OldValue Xor 1, OldValue) OldValue
This approach allows one to perform any sort of atomic update to a variable whose new value should depend on the old value. For certain common operations like increment and decrement, there are faster alternatives, but the CompareExchange allows one to implement other useful patterns as well.
Important caveats: (1) Keep the loop as short as possible; the longer the loop, the more likely it is that another task will hit the variable during the loop, and the more time will be wasted each time that happens; (2) a specified number of updates, divided arbitrarily among threads, will always complete, since the only way a thread can forced to re-execute the loop is if some other thread has made useful progress; if some threads can perform updates without making forward progress toward completion, however, the code may become live-locked.