In general, it is very difficult to do better than your compiler with simple code like this.
A compiler, when faced with a swap operation on integers, will typically issue code like this:
mov eax, [x]
mov ebx, [y]
mov [x], ebx
mov [y], eax
Before you try to override, first check what the compiler is actually generating. If it's something like this, don't bother going any further; you won't be able to do better than this. Moreover, if you leave it to the compiler, it may, if these variables are used immediately thereafter, choose to reuse one of these registers to save on variable loads/stores as well. This is impossible with hand-coded assembly; the compiler must reload the variables after the black box that is hand-coded asm.
Note that the push/push/pop/pop sequence is likely to be much slower; not only does it add an additional four memory operations to the stack, it also introduces dependencies on the stack pointer, eliminating any possibility of pipelining. With the simple
mov sequence, it is at least possible to run the pair of reads and pair of writes in parallel if they are on different memory banks, or one is in cache, etc. It also does not introduce stalls on the stack pointer in later code.
As such, you should not try to micro-optimize the cost of an interchange; instead, reduce the number of interchanges performed. There are many sorting algorithms available, each with slightly different characteristics. You may find some are better (cause less swaps) on your dataset than others.