How Does mldivide Work for Full, Square, Full Rank, Triangular Matrix?

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Paul el 9 de Mzo. de 2024

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https://la.mathworks.com/matlabcentral/answers/2092546-how-does-mldivide-work-for-full-square-full-rank-triangular-matrix

Comentada: Christine Tobler el 13 de Mzo. de 2024

How does mldivide work when the input matrix A is full, square, full rank, and triangular? The doc page just say it uses a triangular solver, and I'd like more insight into what that triangular solver is.

An iterative approach can be used, e.g., for a lower triangular A

A = [1 0 0;2 3 0;4 5 6];
b = [1; 2; 3];
% A*x = b
% solve for x(i) iteratively, could be easily done with a for loop
x(1) = b(1)/A(1,1);
x(2) = (b(2) - A(2,1)*x(1)) / A(2,2);
x(3) = (b(3) - A(3,1)*x(1) - A(3,2)*x(2)) / A(3,3);
A*x(:) - b
ans = 3×1
     0
     0
     0

Does mldivide use a solver that's more efficient and/or more numerically robust?

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Paul el 10 de Mzo. de 2024

Hi Steven,

I wouldn't use that information in the least. I'd use mldivide, \ without giving it a second thought for a triangular A should I ever have the need.

I agree with your comment to "use backslash instead of trying to build your own solver" for my work, and it's probably very good advice for most, if not all, people's production code.

However, I've seen such advice (sometimes more as an admonishment, though not from you in my recollection) given on this forum to people who might only be trying to learn about something, e.g., "Why are you bothering to write your own solver? Just the use the code that the experts provide!" One of the best ways to learn is to try to solve a problem oneself, IMO. And in these cases the native Matlab solution can serve as a tool for verification and comparison, which makes it a wonderful resource.

In this instance, I came across a problem in linear sytems that reduced to a triangular A*x = b problem where the author said such problems always have a solution, as one can see from the iterative substitution approach. But the point of the author was just to show that a solution always exists to the linear equations as opposed to showing how to best solve them. So I consulted mldivide, \ to see how Matlab would solve the triangular problem, which led to my question. So more out of curiosity than anything else.

Bruno Luong el 10 de Mzo. de 2024

Editada: Bruno Luong el 10 de Mzo. de 2024

@Paul "So I consulted mldivide, \ to see how Matlab would solve the triangular problem"

This is more related to how MATLAB compute the rank and disable the projection of the solution into what it considers to the kernel of the system.

In is sense the question is interesting for triangular system since I actually don't know how it estimates the rank.

For the non-triangular full matrix it performs QR decomposition with columns permutation, so the diagonal is decreses in absolute and it cut with the criteria I have asked in another recent post about rank revealing.

If the matrix is already triangular, actually I don't know how the rank and the kernel is actually estimated, since no QR would be performed on top of the triangular matrix, I believe the rank estimation must be performed before the dtrsv (or whatever the equivalent blas function MATLAB uses.

Look for a piece of algorithm won't allow to answer your question IMO.

Bruno Luong el 12 de Mzo. de 2024

Editada: Bruno Luong el 12 de Mzo. de 2024

My guess is that the warning during solving x=A\b is not alway triggered based on matrix conditioning number or matrix norm. Those are not cheap to compute.

Rather it's based first on eventual intermediate quantity computed while the linear solver algorithm does the work: smallest and largest diagonal elements of A if A is triangular form, and diagonal of R if QR decomposition is used (generic full matrix).

This code seems to indicate that

substitution is used directly on T (small is compared to 1 for singularity detection) and
QR is used on Tf (small is compared to norm([1; 1]) = sqrt(2) for singularity detection)

Christine Tobler el 13 de Mzo. de 2024

Yes, rcond is not computed in x = A\b if A is triangular. This is because computing the approximate rcond value would be several times more expensive than solving the linear system itself. Instead, a heuristic based on the diagonal values of A is used.

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