Relevant Information on my system: Core2Duo T6500 gcc (GCC) 4.4.1 20090725 (Red Hat 4.4.1-2)

Using the basic set implementation, where each set that is stored is really just the lexicographical order of the set stored, you can use standard bit operations for Set operations like Union, Intersection, elementQ, etc.

My question is about determining the size of the set. Implementations like Cliquer use a

```
static int set_bit_count[256]
```

to store how many bits are in any given possible 8 bit string, and then the algorithm would go through 8 bits at a time to determine the set's size.

I have two problems with that way:

- If registers are more than 8x faster than cache or RAM, this would waste speed.
- In a 64-bit machine, are not
`int`

operations slower than say,`unsigned long long int`

which I assume are the standard operating integers on 64-bit CPU's.

But I would imagine just using a simple

```
while(x)
x&=x-1;
++count;
```

could be faster as everything could be stored in registers. But on the downside, could something other than the obvious 8x times as many operations?

Also, there are so many different combinations of ` int, uint, unsigned long, unsigned long long`

that I have no Idea where to start testing.

Do you know any essays on this topic?

Do you know any other SO questions on this topic?

Do you have any insights to this?

Do you have any suggestions on how to profile this? I've never used gprof. And when I use time.h, I can't get finer than a second of granularity.

I would be very grateful if you did.