Reducing memory storage through matrix computation

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mona
mona il 2 Mar 2014
Modificato: Matt J il 2 Mar 2014
I need to compute a matrix and the following code does exactly what I want. However, the operator creates O(n^2) storage but I want it to store the matrix linearly i.e., create O(n) storage (less storage space). I think this could be done using permutations but how could you modify the code in those terms:
ele=100;
x=(0:ele)'/2;
nlength= length(x);
p=ones(nlength,1);
for i=1:nlength-1
p=horzcat(p,x.^i);
end
g=p*x;
  2 Commenti
Matt J
Matt J il 2 Mar 2014
Modificato: Matt J il 2 Mar 2014
FYI, you've largely reinvented the VANDER command.
mona
mona il 2 Mar 2014
and I still trying to implement it in a different way so that it doesn't take much space. Any help?

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Risposte (1)

Matt J
Matt J il 2 Mar 2014
Modificato: Matt J il 2 Mar 2014
If you only intend to operate on vectors, by matrix-vector multiplication, you could use MatrixObj as below (or just use POLYVAL directly),
p=MatrixObj;
p.Ops.mtimes=@(~,y) polyval(flipud(y), x);
p.Ops.size=[nlength,nlength];
However, I don't see when it would ever be practical to use such a matrix for very large n. Expressions like x.^n are very numerically sensitive when n is large.
  2 Commenti
mona
mona il 2 Mar 2014
Modificato: mona il 2 Mar 2014
Thanks Matt but I cannot seem to use polyval directly since y is coming from MatrixObj. I really don't prefer to use another function. Could this be done just by using the built-in functions within Matlab?
Matt J
Matt J il 2 Mar 2014
Modificato: Matt J il 2 Mar 2014
I didn't understand your comment. The code you've posted is equivalent to the single line,
g=polyval(flipud(x),x);
So, if you want to use built-in functions only, this would be the way.
The advantage of MatrixObj is that it allows you to do the same thing with the same matrix multiplication syntax as in your original code,
p=MatrixObj;
p.Ops.mtimes=@(~,y) polyval(flipud(y), x);
p.Ops.size=[nlength,nlength];
g=p*x;
which sounded like what you were looking for.

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