When implementing "Carmack's Inverse Square Root" algorithm I noticed that the results seem biased. The following code seems to give better results:

```
float InvSqrtF(float x)
{
// Initial approximation by Greg Walsh.
int i = * ( int* ) &x;
i = 0x5f3759df - ( i >> 1 );
float y = * ( float * ) &i;
// Two iterations of Newton-Raphson's method to refine the initial estimate.
x *= 0.5f;
float f = 1.5F;
y = y * ( f - ( x * y * y ) );
y = y * ( f - ( x * y * y ) );
* ( int * )(&y) += 0x13; // More magic.
return y;
}
```

The key difference is in the penultimate "more magic" line. Since the initial results were too low by a fairly constant factor, this adds 19 * 2^(exponent(y)-bias) to the result with just a single instruction. It seems to give me about 3 extra bits, but am I overlooking something?