# Beginning Matlab question (matrix of zeros)

Why create a matrix of 0's in Matlab? For example,

``````A=zeros(5,5);
for i = 1:5
A(i)=exp(i);
end
``````
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Depends on the application – Jacob Jun 24 '10 at 5:31

Following on from j_random_hacker's answer, it's much more efficient in MATLAB to pre-allocate an array rather than letting MATLAB expand it. MATLAB can expand arrays if you simply assign elements off the current "end" of the array, like so:

``````x = []
for ii=1:1e4
x(ii) = 1/ii;
end
``````

That's really inefficient because at each step in the loop, MATLAB will re-allocate "x" to be one element larger than it was previously. The following is much faster:

``````x = zeros( 1, 1e4 );
for ii=1:1e4
x(ii) = 1/ii;
end
``````

(Probably fastest still in this case is: `x = 1./(1:1e4);`, but the pre-allocation route is what you need when you can't resolve things to a vectorised operation)

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It should be noted that this kind of optimization, while always helpful is not usually significant until big matrices are involved. Make a little test script to see how this effect scales. I personally do not worry about this until about 200+ elements in a growing vector. – MatlabDoug Jun 24 '10 at 14:22
Yep, growing small arrays is (relatively) fine, that's why I chose 1e4 elements ;) – Edric Jun 24 '10 at 15:19

This is identical to asking: Why create a variable with value 0?

Usually you would do this if you plan to accumulate a bunch of results together somehow. In this case, you have to start "somewhere".

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Although it is possible to start out with an empty matrix and expand it by concatenating (adding) new elements, vector extension is highly inefficient in MATLAB because it requires new memory every time another element is concatenated. Preallocation establishes a matrix that's the right size in advance, then each zero element can be replaced with the correct value. This method is much more efficient, especially in programs involving looping.

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This is helpful if you are going to work on large matrix. Or if you are going to work with sparse matrix. This is also helpful when you are using the same vector or matrix again and again.

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This does not provide an answer to the question. To critique or request clarification from an author, leave a comment below their post - you can always comment on your own posts, and once you have sufficient reputation you will be able to comment on any post. – Jonathan May 19 '15 at 1:17