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# Vectorizing the concatenation of binary operations

Say I have a cell array, that holds a stack of logical matrices, e.g.

``````matrices =
[225x400 logical]
[225x400 logical]
....
[225x400 logical]
``````

The cell array can potentially hold hundreds of matrices.

I would like to compute a single matrix that is the result of the concatenation of binary operations on this matrices.

i.e.

``````result = matrices{1} & matrices{2} & matrices{3} & ..., etc.
``````

My question: Is it possible to do this without looping? And if so, is there any benefit in vectorizing this computation MATLAB?

What if the stack of matrices is represented as a 3D array (instead of a cell array?), e.g.:

``````  Name                        Size

matrices                  225x400x100
``````

Is there any benefit in holding these types of stacks as cell arrays vs 3D matrices? (to clarify, in this last example, we would compute the `AND` of `100` matrices, each of them of size `225x400`).

PS: I'm interested in solutions to `AND`, `XOR` and `OR`

-

You can't do vectorized computations on cell arrays. You have to convert it to a 3D array (using `cell2mat`), or even better: pre-allocate a 3D array.

Then, with dimensions 225x400x100 you can do:

or:

``````any(matrices,3)
``````

and:

``````all(matrices,3)
``````

xor:

``````mod( sum(matrices, 3), 2)
``````

The benefit of cell arrays is memory preservation (e.g., once you delete a cell). Once your cell array is stable you should turn it into a matrix for vectorized computations, which is much faster than Matlab loops.

-
That works great. Thanks! – Amelio Vazquez-Reina Oct 10 '11 at 23:01
to convert from cellarray to 3D matrix, use the following: `cat(3,matrices{:})` – Amro Oct 11 '11 at 3:16