Package smile.math.matrix.fp32
Class SymmMatrix.BunchKaufman
java.lang.Object
smile.math.matrix.fp32.SymmMatrix.BunchKaufman
- All Implemented Interfaces:
Serializable
- Enclosing class:
SymmMatrix
The LU decomposition. For an m-by-n matrix A with
m >= n
, the LU
decomposition is an m-by-n unit lower triangular matrix L, an n-by-n
upper triangular matrix U, and a permutation vector piv of length m
so that A(piv,:) = L*U. If m < n
, then L is m-by-m and U is m-by-n.
The LU decomposition with pivoting always exists, even if the matrix is singular. The primary use of the LU decomposition is in the solution of square systems of simultaneous linear equations if it is not singular. The decomposition can also be used to calculate the determinant.
- See Also:
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Field Summary
Modifier and TypeFieldDescriptionfinal int
Ifinfo = 0
, the LU decomposition was successful.final int[]
The pivot vector.final SymmMatrix
The Bunch–Kaufman decomposition. -
Constructor Summary
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Method Summary
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Field Details
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lu
The Bunch–Kaufman decomposition. -
ipiv
public final int[] ipivThe pivot vector. -
info
public final int infoIfinfo = 0
, the LU decomposition was successful. Ifinfo = i > 0
, U(i,i) is exactly zero. The factorization has been completed, but the factor U is exactly singular, and division by zero will occur if it is used to solve a system of equations.
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Constructor Details
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BunchKaufman
Constructor.- Parameters:
lu
- LU decomposition matrix.ipiv
- the pivot vector.info
-info > 0
if the matrix is singular.
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Method Details
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isSingular
public boolean isSingular()Returns true if the matrix is singular.- Returns:
- true if the matrix is singular.
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det
public float det()Returns the matrix determinant.- Returns:
- the matrix determinant.
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inverse
Returns the inverse of matrix.- Returns:
- the inverse of matrix.
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solve
public float[] solve(float[] b) Solve A * x = b.- Parameters:
b
- the right hand side of linear system.- Returns:
- the solution vector.
- Throws:
RuntimeException
- when the matrix is singular.
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solve
Solve A * X = B. B will be overwritten with the solution matrix on output.- Parameters:
B
- the right hand side of linear system. On output, B will be overwritten with the solution matrix.- Throws:
RuntimeException
- when the matrix is singular.
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