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# Compressing a bit matrix when receiving the row in random order

I am working with an `Nx3` bit matrix where the number of row `N` is very large, say `2^40`.
A typical matrix looks like this

``````000
001
010
011
...
``````

I do something like this

``````transform_row(5); //return 000
transform_row(10); //return 101
assemble_array(000,101);
//return a 10x3 matrix, where:
//row 5: 000
//row 10: 101
//the other rows wait for the other iteration to be filled

...//repeat
``````

The bit pattern in both my `initial_matrix` and `transformed_matrix` is either very redundant or very spare. For example, the first column can be only `0` or there can be huge block of `1`.

What are my option for assembling and efficiently compressing in this situation?
Should I roll my own assembling algorithm, or can I use some compression library?
I'm thinking about rolling my own because I don't know if a compression library can work efficiently in this sequential situation.

I'm executing `assemble_array` in parallel on a gpu.
So the function needs to be threads safe, associative and commutative.

bit_matrix_transform.cu

``````bit_matrix initial_matrix;
first=0;
last=2^40;
UnaryFunction bit_vector transform_row::operator(long row_index);
BinaryFunction bit_matrix assemble_array::operator(bit_array x, bit_array y);
bit_matrix transformed_matrix = thrust::transform_reduce(first, last, transform_row, init, assemble_array);
//a bit_array being either a bit_vector or a bit_matrix
``````
-
If your matrix is sparse, then you could use a sparse matrix representation. In which case, you could use Cusp, which is built on top of Thrust. – Oliver Charlesworth May 30 '12 at 7:44