Solve for x in (A^k)*x=b (sequentially, LU factorization)

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Mark on 24 Nov 2011

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https://se.mathworks.com/matlabcentral/answers/22183-solve-for-x-in-a-k-x-b-sequentially-lu-factorization

Commented: Sheraline Lawles on 22 Feb 2021

Accepted Answer: Walter Roberson

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Without computing A^k, solve for x in (A^k)*x=b.

A) Sequentially? (Pseudocode)

for n=1:k

    x=A\b;
    b=x;

end

Is the above process correct?

B) LU factorizaion?

How is this accompished?

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Accepted Answer

Walter Roberson on 24 Nov 2011

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https://se.mathworks.com/matlabcentral/answers/22183-solve-for-x-in-a-k-x-b-sequentially-lu-factorization#answer_29216

http://www.mathworks.com/help/techdoc/ref/lu.html for LU factorization.

However, I would suggest that LU will not help much. See instead http://www.maths.lse.ac.uk/Personal/martin/fme4a.pdf

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Nicholas Lamm on 9 Jul 2018

Edited: Rena Berman on 9 Jul 2018

A) Linking to the documentation is about the least helpful thing you can do and B) youre not even right, LU decomposition is great for solving matrices and is even cheaper in certain situations.

More Answers (1)

Derek O'Connor on 28 Nov 2011

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Contrary to what Walter says, LU Decomposition is a great help in this problem. See my solution notes to Lab Exercise 6 --- LU Decomposition and Matrix Powers

http://www.derekroconnor.net/NA/LE/LE-2006-6.pdf

Additional Information

Here is the Golub-Van Loan Algorithm for solving (A^k)*x = b

 [L,U,P] = lu(A);
 for m = 1:k
     y = L\(P*b);
     x = U\y;
     b = x;
 end

Matlab's backslash operator "\" is clever enough to figure out that y = L\(P*b) is forward substitution, while x = U\y is back substitution, each of which requires O(n^2) work.

Total amount of work is: O(n^3) + k*O(n^2) = O(n^3 + k*n^2)

If k << n then this total is effectively O(n^3).

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Derek O'Connor on 28 Nov 2011

Oh dear. It has just struck me that this may be a homework problem and I have given the game away.

Sheraline Lawles on 22 Feb 2021

Just a note... sadly, the above link to Derek O'Connor's webpage is no longer active.

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