/** * Constructs and returns the Eigenvalue-decomposition of the given matrix. */ public DenseDoubleEigenvalueDecomposition eig(DoubleMatrix2D matrix) { return new DenseDoubleEigenvalueDecomposition(matrix); }
/** * Constructs and returns the Eigenvalue-decomposition of the given matrix. */ public DenseDoubleEigenvalueDecomposition eig(DoubleMatrix2D matrix) { return new DenseDoubleEigenvalueDecomposition(matrix); }
public Matrix[] eig() { DenseDoubleEigenvalueDecomposition eig = new DenseDoubleEigenvalueDecomposition(matrix); Matrix v = new ParallelColtDenseDoubleMatrix2D(eig.getV()); Matrix d = new ParallelColtDenseDoubleMatrix2D(eig.getD()); return new Matrix[] { v, d }; }
public Matrix[] eig() { DenseDoubleEigenvalueDecomposition eig = new DenseDoubleEigenvalueDecomposition(matrix); Matrix v = new ParallelColtDenseDoubleMatrix2D(eig.getV()); Matrix d = new ParallelColtDenseDoubleMatrix2D(eig.getD()); return new Matrix[] { v, d }; }
eig = new DenseDoubleEigenvalueDecomposition(matrix); } catch (IllegalArgumentException exc) { buf.append("\n\n" + constructionException + " EigenvalueDecomposition: " + exc.getMessage());
eig = new DenseDoubleEigenvalueDecomposition(matrix); } catch (IllegalArgumentException exc) { buf.append("\n\n" + constructionException + " EigenvalueDecomposition: " + exc.getMessage());