Uses of Class
no.uib.cipr.matrix.DenseMatrix
Packages that use DenseMatrix
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Uses of DenseMatrix in no.uib.cipr.matrix
Methods in no.uib.cipr.matrix that return DenseMatrixModifier and TypeMethodDescriptionDenseMatrix.copy()EVD.getLeftEigenvectors()Gets the left eigenvectors, if availableDenseLU.getLU()Returns the decomposition matrixQRP.getQ()Returns the orthogonal matrixQRP.getR()Returns the upper triangular factorEVD.getRightEigenvectors()Gets the right eigenvectors, if availableSVD.getU()Returns the left singular vectors, column-wise.SVD.getVt()Returns the right singular vectors, row-wise.static DenseMatrixMatrices.identity(int size) Returns the identity matrix of the given sizeBandCholesky.solve(DenseMatrix B) ComputesA\B, overwritingBBandLU.solve(DenseMatrix B) ComputesA\B, overwritingBDenseCholesky.solve(DenseMatrix B) Solves forB, overwriting it on returnDenseLU.solve(DenseMatrix B) ComputesA\B, overwritingBPackCholesky.solve(DenseMatrix B) Solves forB, overwriting it on returnBandLU.transSolve(DenseMatrix B) ComputesAT\B, overwritingBDenseLU.transSolve(DenseMatrix B) ComputesAT\B, overwritingBMethods in no.uib.cipr.matrix with parameters of type DenseMatrixModifier and TypeMethodDescriptionDenseLU.factor(DenseMatrix A) Creates an LU decomposition of the given matrixEVD.factor(DenseMatrix A) Computes the eigenvalue decomposition of the given matrixLQ.factor(DenseMatrix A) QL.factor(DenseMatrix A) QR.factor(DenseMatrix A) RQ.factor(DenseMatrix A) SVD.factor(DenseMatrix A) Computes an SVDBandCholesky.solve(DenseMatrix B) ComputesA\B, overwritingBBandLU.solve(DenseMatrix B) ComputesA\B, overwritingBDenseCholesky.solve(DenseMatrix B) Solves forB, overwriting it on returnDenseLU.solve(DenseMatrix B) ComputesA\B, overwritingBPackCholesky.solve(DenseMatrix B) Solves forB, overwriting it on returnBandLU.transSolve(DenseMatrix B) ComputesAT\B, overwritingBDenseLU.transSolve(DenseMatrix B) ComputesAT\B, overwritingB