Uses of Class
no.uib.cipr.matrix.DenseMatrix

Packages that use DenseMatrix
no.uib.cipr.matrix Dense and structured sparse matrices, along with matrix factorisations and solvers. 
 

Uses of DenseMatrix in no.uib.cipr.matrix
 

Methods in no.uib.cipr.matrix that return DenseMatrix
 DenseMatrix DenseMatrix.copy()
           
 DenseMatrix EVD.getLeftEigenvectors()
          Gets the left eigenvectors, if available
 DenseMatrix DenseLU.getLU()
          Returns the decomposition matrix
 DenseMatrix QRP.getQ()
          Returns the orthogonal matrix
 DenseMatrix QRP.getR()
          Returns the upper triangular factor
 DenseMatrix EVD.getRightEigenvectors()
          Gets the right eigenvectors, if available
 DenseMatrix SVD.getU()
          Returns the left singular vectors, column-wise.
 DenseMatrix SVD.getVt()
          Returns the right singular vectors, row-wise.
static DenseMatrix Matrices.identity(int size)
          Returns the identity matrix of the given size
 DenseMatrix BandCholesky.solve(DenseMatrix B)
          Computes A\B, overwriting B
 DenseMatrix BandLU.solve(DenseMatrix B)
          Computes A\B, overwriting B
 DenseMatrix DenseCholesky.solve(DenseMatrix B)
          Solves for B, overwriting it on return
 DenseMatrix DenseLU.solve(DenseMatrix B)
          Computes A\B, overwriting B
 DenseMatrix PackCholesky.solve(DenseMatrix B)
          Solves for B, overwriting it on return
 DenseMatrix BandLU.transSolve(DenseMatrix B)
          Computes AT\B, overwriting B
 DenseMatrix DenseLU.transSolve(DenseMatrix B)
          Computes AT\B, overwriting B
 

Methods in no.uib.cipr.matrix with parameters of type DenseMatrix
 DenseLU DenseLU.factor(DenseMatrix A)
          Creates an LU decomposition of the given matrix
 EVD EVD.factor(DenseMatrix A)
          Computes the eigenvalue decomposition of the given matrix
 LQ LQ.factor(DenseMatrix A)
           
 QL QL.factor(DenseMatrix A)
           
 QR QR.factor(DenseMatrix A)
           
 RQ RQ.factor(DenseMatrix A)
           
 SVD SVD.factor(DenseMatrix A)
          Computes an SVD
 DenseMatrix BandCholesky.solve(DenseMatrix B)
          Computes A\B, overwriting B
 DenseMatrix BandLU.solve(DenseMatrix B)
          Computes A\B, overwriting B
 DenseMatrix DenseCholesky.solve(DenseMatrix B)
          Solves for B, overwriting it on return
 DenseMatrix DenseLU.solve(DenseMatrix B)
          Computes A\B, overwriting B
 DenseMatrix PackCholesky.solve(DenseMatrix B)
          Solves for B, overwriting it on return
 DenseMatrix BandLU.transSolve(DenseMatrix B)
          Computes AT\B, overwriting B
 DenseMatrix DenseLU.transSolve(DenseMatrix B)
          Computes AT\B, overwriting B