I need to compare two numbers and look for similarities in more significant bits. I'm trying to determine the number of least significant bits that differ.

```
10111000
10111011
```

184 and 187 require an offset of two, because only two least significant bits differ.

```
10111011
11111011
```

187 and 251 require an offset of seven, because the seventh least significant bit differs.

My first idea was to XOR the numbers together, then bit-shift right until the number equaled zero. I feel like there is a better bit-wise solution to this that doesn't involve loops, but I haven't done enough bit-twiddling of my own to come up with it.

The solution needs to work for any 64 bits, as my numbers are being stored as `UInt64`

. This is being written in C#, but the solution is most likely a language agnostic one.

```
11101101
11010101
```

Would need an offset of 6 bits. I'm trying to find how many similar bits I can take off the top.

`xor`

+`bsr`

, no? And starting with Pentium II, that should only take a low constant number of clock cycles. – Christopher Creutzig Sep 26 '10 at 19:28