This class is just a specialization of PrecisionOp when the shift Operator is built with sparse matrices and therefore algebra can be performed with Cholesky. It allows to return the precision matrix as a Sparse Matrix.
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| | PrecisionOpCs (ShiftOpCs *shiftop=nullptr, const CovAniso *cova=nullptr, bool verbose=false) |
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| | PrecisionOpCs (const AMesh *mesh, CovAniso *cova, bool verbose=false) |
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| virtual | ~PrecisionOpCs () |
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| void | evalInverse (const Eigen::VectorXd &vecin, Eigen::VectorXd &vecout) override |
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| int | _addSimulateToDest (const Eigen::VectorXd &whitenoise, Eigen::VectorXd &outv) const override |
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| int | _addToDest (const Eigen::VectorXd &inv, Eigen::VectorXd &outv) const override |
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| double | getLogDeterminant (int nbsimu=1) override |
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| void | evalDeriv (const Eigen::VectorXd &inv, Eigen::VectorXd &outv, int iapex, int igparam, const EPowerPT &power) override |
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| void | evalDerivOptim (Eigen::VectorXd &outv, int iapex, int igparam, const EPowerPT &power) override |
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| void | gradYQX (const Eigen::VectorXd &X, const Eigen::VectorXd &Y, Eigen::VectorXd &result, const EPowerPT &power) override |
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| void | gradYQXOptim (const Eigen::VectorXd &X, const Eigen::VectorXd &Y, Eigen::VectorXd &result, const EPowerPT &power) override |
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| const MatrixSparse * | getQ () const |
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| | PrecisionOp () |
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| | PrecisionOp (ShiftOpCs *shiftop, const CovAniso *cova, bool verbose=false) |
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| | PrecisionOp (const AMesh *mesh, CovAniso *cova, bool verbose=false) |
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| | PrecisionOp (const PrecisionOp &pmat) |
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| PrecisionOp & | operator= (const PrecisionOp &pmat) |
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| virtual | ~PrecisionOp () |
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| virtual std::pair< double, double > | getRangeEigenVal (int ndiscr=100) |
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| int | reset (const ShiftOpCs *shiftop, const CovAniso *cova=nullptr, bool verbose=false) |
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| std::vector< Eigen::VectorXd > | simulate (int nbsimu=1) |
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| void | evalPower (const Eigen::VectorXd &inm, Eigen::VectorXd &outm, const EPowerPT &power=EPowerPT::fromKey("ONE")) |
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| VectorDouble | evalCov (int imesh) |
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| VectorDouble | simulateOne () |
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| int | getSize () const override |
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| bool | getTraining () const |
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| void | setTraining (bool tr) |
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| ShiftOpCs * | getShiftOp () const |
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| VectorDouble | getPolyCoeffs (const EPowerPT &power) |
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| void | setPolynomialFromPoly (APolynomial *polynomial) |
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| bool | isCovaDefined () const |
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| VectorDouble | getCoeffs () |
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| void | evalPower (const VectorDouble &inv, VectorDouble &outv, const EPowerPT &power=EPowerPT::fromKey("ONE")) |
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| | ASimulable () |
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| virtual | ~ASimulable () |
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| int | evalSimulate (const VectorDouble &whitenoise, VectorDouble &outv) const |
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| VectorDouble | evalSimulate (const VectorDouble &whitenoise) const |
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| int | evalSimulate (const VectorEigen &whitenoise, VectorEigen &outv) const |
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| int | addSimulateToDest (const VectorDouble &whitenoise, VectorDouble &outv) const |
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| int | addSimulateToDest (const VectorEigen &whitenoise, VectorEigen &outv) const |
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| int | evalSimulate (const Eigen::VectorXd &whitenoise, Eigen::VectorXd &outv) const |
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| int | addSimulateToDest (const Eigen::VectorXd &whitenoise, Eigen::VectorXd &outv) const |
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| virtual | ~ALinearOp () |
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| int | evalDirect (const VectorDouble &inv, VectorDouble &outv) const |
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| VectorDouble | evalDirect (const VectorDouble &in) const |
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| int | evalDirect (const VectorEigen &inv, VectorEigen &outv) const |
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| int | addToDest (const VectorDouble &inv, VectorDouble &outv) const |
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| int | addToDest (const VectorEigen &inv, VectorEigen &outv) const |
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| int | evalDirect (const Eigen::VectorXd &inv, Eigen::VectorXd &outv) const |
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| int | addToDest (const Eigen::VectorXd &inv, Eigen::VectorXd &outv) const |
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Public Member Functions inherited from PrecisionOp
1.9.1