How can I derive inverse of the matrix with infinite determinant?

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Junho Kweon
Junho Kweon am 17 Nov. 2022
Kommentiert: Walter Roberson am 18 Nov. 2022
Ran in:
Hi guys, there is a matrix A which has finite dimension and finite-valued elements.
However, because of its large size and values, the determinant of A becomes infinite on MATLAB.
load("myMatrix.mat","A")
size(A)
ans = 1×2
320 320
max(max(abs(A)))
ans = 2.2913e+04
det(A)
ans = Inf
Therefore, it cannot compute the inverse of the matrix precisely.
B = inv(A);
Warning: Matrix is close to singular or badly scaled. Results may be inaccurate. RCOND = 8.336932e-19.
isdiag(A*B)
ans = logical
0
Is there way to compute the inverse of the matrix A?
Cheers,

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Antworten (4)

Bruno Luong
Bruno Luong am 17 Nov. 2022
Bearbeitet: Bruno Luong am 18 Nov. 2022
Ran in:
Welcome to the world of numerical calculation. Every conclusion you made is wrong.
"det(A) = Inf Therefore, it cannot compute the inverse of the matrix precisely. ".
Wrong
A=eye(200)*1024;
det(A)
ans = Inf
B=inv(A);
all(A*B == eye(size(A)), 'all') % A*B is exatly I, despite det(A) is Inf due to overflow
ans = logical
1
Check B is inverse of A using isdiag(A*B).
This is a bad numerically criteria as showed in the false negative answer example
A=[1 2; 3 4]
A = 2×2
1 2 3 4
B = inv(A)
B = 2×2
-2.0000 1.0000 1.5000 -0.5000
AB = A*B;
isdiag(AB) % Suppose to be TRUE
ans = logical
0
AB(2,1) % Suppose to be 0, but not exactly
ans = 8.8818e-16
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Bruno Luong
Bruno Luong am 17 Nov. 2022
Bearbeitet: Bruno Luong am 17 Nov. 2022
The funny thing is the inconsistency of linear algebra - mostly det - in floating point world.
The matrix is numerical singular, so the determinant should be 0, yet it is Inf.
Junho Kweon
Junho Kweon am 18 Nov. 2022
@Bruno Luong Yeah, it is quite interesting that detmerninant is not zero though it is mathematically 0. May be in the mathematical computation of determinant, (very large number)- (very large number), and it is over the computational limitation of MATLAB. Therefore, it might be Inf comes out, and MATLAB just conclude that the determinant is infinite.

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Torsten
Torsten am 17 Nov. 2022
Bearbeitet: Torsten am 17 Nov. 2022
What do you get if you type
rank(A)
?
If it's smaller than 320, no inverse exists (or is almost impossible to calculate).
Bruno Luong
Bruno Luong am 17 Nov. 2022
Verschoben: Bruno Luong am 17 Nov. 2022
"Is there way to compute the inverse of the matrix A?"
No.
The sum of all columns of your matrix A is numerically 0, therefore your matrix is not invertible.
  2 Kommentare
Steven Lord
Steven Lord am 17 Nov. 2022
The first of Cleve's Golden Rules of computation applies here. "The hardest things to compute are things that do not exist."
Bruno Luong
Bruno Luong am 17 Nov. 2022
Hmm read these two rules from Cleve I wonder this: things that do not exist are they unique?
It sounds like a non-sense question, but why it is non-sense?
If it does make sense I have no preference for the answer.

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Walter Roberson
Walter Roberson am 17 Nov. 2022
Bearbeitet: Walter Roberson am 18 Nov. 2022
In theory if you have the symbolic toolbox, you could
digits(16);
sA = sym(A, 'd');
digits(32);
Ainv = inv(sA);
... But test it with a much smaller matrix first, as it might take very very long.
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Bruno Luong
Bruno Luong am 18 Nov. 2022
Bearbeitet: Bruno Luong am 18 Nov. 2022
OK I make change accordingly to 'd' flag in my test code, and as you can see the symbolic is no bettrer than numerical method with "\", at least in this toy example.
Even if it use minor formula, there are a lot of cancellation going on in determinant so the summation order and tree (parenthesis) matter. The symbolic probably does the sumation in the implicit order of the implementation as it progres and no care about cancellation.
I'm not sure if the symbolic solution is any better than numerical method for precision point of view, let alone the computation time that goes as factorial of the dimesion.
Walter Roberson
Walter Roberson am 18 Nov. 2022
The point about this approach was that it should avoid the intermediate inf

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