How can this code:

```
var check = 0;
for (var numerator = 0; numerator <= maxNumerator; numerator++)
{
check += numerator >= 0
? numerator - (int) ((numerator * qdi.Multiplier) >> qdi.Shift) * qdi.Number
: numerator - (int) -((-numerator * qdi.Multiplier) >> qdi.Shift) * qdi.Number;
}
return check;
```

run 3x faster than this code:

```
var check = 0;
for (var numerator = 0; numerator <= maxNumerator; numerator++)
{
check += numerator >= 0
? (int) ((numerator * qdi.Multiplier) >> qdi.Shift)
: (int) -((-numerator * qdi.Multiplier) >> qdi.Shift);
}
return check;
```

The first code snippet does exactly the same fast divide operation (thats the multiply then shift right) but also a subtraction and multiplication but but the JIT compiler appears to be producing slower code.

I have the disassembly code for each available.

The slower code pushes the rbx register and subtracts 10h from rsp at the start and then adds it back and pops rbx at the end whereas the faster codes doesn't.

The slower code also uses the r11 register for most things where the faster code uses rdx.

Any ideas?