Cholesky decomposition explanation simple terms
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Could someone explain to me what Cholesky decomposition is in layman terms?
Like the simple intuition behind it. Thanks.
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Vidhi Agarwal
el 2 de Jun. de 2023
Cholesky decomposition is a numerical method used to solve matrix systems of the form Ax=b, where A is a symmetric positive definite matrix, b is the column vector of known values, and x is the vector of unknown variables.
The Cholesky decomposition of a symmetric positive definite matrix A is given by the factorization:
A = LL^T
where L is a lower-triangular matrix and L^T is its transpose. This factorization method decomposes the original matrix into two triangular matrices, which are easier and faster to solve than the original matrix.
% Define the matrix A and the vector b for the system of linear equations Ax = b
A = [4 2 -1; 2 5 3; -1 3 13];
b = [5; -1; 24];
% Use the chol function to compute the Cholesky decomposition of A
L = chol(A,'lower');
% Use forward substitution to solve Ly = b
y = L \ b;
% Use backward substitution to solve L^Tx = y
x = L' \ y;
% Display the solution vector x
disp(x);
In this example, A is a 3x3 matrix representing the coefficients of the system of linear equations, and b is a 3x1 vector representing the constants. The chol function is used to compute the Cholesky decomposition of A, and the lower-triangular matrix L is stored in a variable.
The system of linear equations is then solved using two rounds of substitution: first, forward substitution is used to solve the equation Ly=b, and then backward substitution is used to solve the equation L^Tx=y. The solution vector x is then displayed using the disp() function.
Note that the chol function assumes that the matrix A is symmetric positive definite. If the matrix is not, the function will return an error. Also, Cholesky decomposition is useful only if the matrix A is symmetric positive definite because we can extract the lower triangular matrix using which we can then solve equations easily.
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