I have the following three-dimensional bit array(for a bloom filter):

```
unsigned char P_bit_table_[P_ROWS][ROWS][COLUMNS];
```

the P_ROWS's dimension represents independent two-dimensional bit arrays(i.e, P_ROWS[0], P_ROWS1,P_ROWS[2] are independent bit arrays) and could be as large as 100MBs and contains data which are populated independently. The data that I am looking for could be in any of these P_ROWS and right now I am searching through it independently, which is P_ROWS[0] then P_ROWS1 and so on until i get a positive or until the end of it(P_ROWS[n-1]). This implies that if n is 100 I have to do this search(bit comparison) 100 times(and this search is done very often). Some body suggested that I can improve the search performance if I could do bit grouping (use a column-major order on the row-major order array-- I DON'T KNOW HOW).

I really need to improve the performance of the search because the program does a lot of it.

I will be happy to give more details of my bit table implementation if required.

Sorry for the poor language.

Thanks for your help.

EDIT: The bit grouping could be done in the following format: Assume the array to be :

```
unsigned char P_bit_table_[P_ROWS][ROWS][COLUMNS]={{(a1,a2,a3),(b1,b2,b3),(c1,c2,c3))},
{(a1,a2,a3),(b1,b2,b3),(c1,c2,c3))},
{(a1,a2,a3),(b1,b2,b3),(c1,c2,c3))}};
```

As you can see all the rows --on the third dimension-- have similar data. What I want after the grouping is like; all the a1's are in one group(as just one entity so that i can compare them with another bit for checking if they are on or off ) and all the b1's are in another group and so on.