Difference between revisions of "Manuals/calci/SVD"
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*Singular value decomposition is defined for all matrices (rectangular or square). | *Singular value decomposition is defined for all matrices (rectangular or square). | ||
− | + | Suppose A is a m × n matrix whose entries come from the field K, which is either the field of real numbers or the field of complex numbers. | |
*Then there exists a factorization, called a singular value decomposition of A, of the form | *Then there exists a factorization, called a singular value decomposition of A, of the form | ||
Revision as of 08:48, 4 September 2017
SVD(Matrix)
- is the set of values.
Description
- The singular value decomposition of a matrix A is the factorization of A into the product of three matrices
- Where the columns of U and V are orthonormal and the matrix S is diagonal with positive real entries
- Singular value decomposition is defined for all matrices (rectangular or square).
Suppose A is a m × n matrix whose entries come from the field K, which is either the field of real numbers or the field of complex numbers.
- Then there exists a factorization, called a singular value decomposition of A, of the form
where U is an m × m unitary matrix, S is a diagonal m × n matrix with non-negative real numbers on the diagonal, V is an n × n unitary matrix over K, and is the conjugate transpose of V.