matrix-triang: Upper and lower triangular matrices
In fBasics: Rmetrics - Markets and Basic Statistics
triang R Documentation
Upper and lower triangular matrices
Description
Extracs the upper or lower triangular part from a matrix.
Usage
triang(x)
Triang(x)
Arguments
x
a numeric matrix.
Details
triang and Triang transform a square matrix to a lower
or upper triangular form. The functions just replace the remaining
values with zeroes and work with non-square matrices, as well.
A triangular matrix is either an upper triangular matrix or lower
triangular matrix. For the first case all matrix elements
a[i,j] of matrix A are zero for i>j, whereas in
the second case we have just the opposite situation. A lower
triangular matrix is sometimes also called left triangular.
In fact, triangular matrices are so useful that much of computational
linear algebra begins with factoring or decomposing a general matrix
or matrices into triangular form. Some matrix factorization methods
are the Cholesky factorization and the LU-factorization. Even
including the factorization step, enough later operations are
typically avoided to yield an overall time savings.
Triangular matrices have the following properties: the inverse of a
triangular matrix is a triangular matrix, the product of two
triangular matrices is a triangular matrix, the determinant of a
triangular matrix is the product of the diagonal elements, the
eigenvalues of a triangular matrix are the diagonal elements.
Value
a matrix of the same dimensions as x with the elements above or
below the main diagonal set to zeroes
References
Higham, N.J., (2002);
Accuracy and Stability of Numerical Algorithms,
2nd ed., SIAM.
Golub, van Loan, (1996);
Matrix Computations,
3rd edition. Johns Hopkins University Press.
Examples
## Create Pascal Matrix:
P = pascal(3)
P
## Create lower triangle matrix
L = triang(P)
L
fBasics documentation built on Nov. 3, 2023, 3:01 p.m.
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| triang | R Documentation |
Upper and lower triangular matrices
Description
Extracs the upper or lower triangular part from a matrix.
Usage
triang(x)
Triang(x)
Arguments
x |
a numeric matrix. |
Details
triang and Triang transform a square matrix to a lower
or upper triangular form. The functions just replace the remaining
values with zeroes and work with non-square matrices, as well.
A triangular matrix is either an upper triangular matrix or lower
triangular matrix. For the first case all matrix elements
a[i,j] of matrix A are zero for i>j, whereas in
the second case we have just the opposite situation. A lower
triangular matrix is sometimes also called left triangular.
In fact, triangular matrices are so useful that much of computational linear algebra begins with factoring or decomposing a general matrix or matrices into triangular form. Some matrix factorization methods are the Cholesky factorization and the LU-factorization. Even including the factorization step, enough later operations are typically avoided to yield an overall time savings.
Triangular matrices have the following properties: the inverse of a triangular matrix is a triangular matrix, the product of two triangular matrices is a triangular matrix, the determinant of a triangular matrix is the product of the diagonal elements, the eigenvalues of a triangular matrix are the diagonal elements.
Value
a matrix of the same dimensions as x with the elements above or
below the main diagonal set to zeroes
References
Higham, N.J., (2002); Accuracy and Stability of Numerical Algorithms, 2nd ed., SIAM.
Golub, van Loan, (1996); Matrix Computations, 3rd edition. Johns Hopkins University Press.
Examples
## Create Pascal Matrix:
P = pascal(3)
P
## Create lower triangle matrix
L = triang(P)
L
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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