Well, why don't we take a look at the generated assembly code, full optimization under VS 2010.
memset(x, 0, sizeof(x) );
003A1014 push 1F4h
003A1019 lea eax,[ebp-1F8h]
003A101F push 0
003A1021 push eax
003A1022 call memset (3A1844h)
And your loop...
for( i = 0; i < 500; ++i )
x[i] = 0;
00E81014 push 1F4h
00E81019 lea eax,[ebp-1F8h]
00E8101F push 0
00E81021 push eax
00E81022 call memset (0E81844h)
/* note that this is *replacing* the loop,
not being called once for each iteration. */
So, under this compiler, the generated code is exactly the same.
memset is fast, and the compiler is smart enough to know that you are doing the same thing as calling
memset once anyway, so it does it for you.
If the compiler actually left the loop as-is then it would likely be slower as you can set more than one byte size block at a time (i.e., you could unroll your loop a bit at a minimum. You can assume that
memset will be at least as fast as a naive implementation such as the loop. Try it under a debug build and you will notice that the loop is not replaced.
That said, it depends on what the compiler does for you. Looking at the disassembly is always a good way to know exactly what is going on.