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KratosMultiphysics
KRATOS Multiphysics (Kratos) is a framework for building parallel, multi-disciplinary simulation software, aiming at modularity, extensibility, and high performance. Kratos is written in C++, and counts with an extensive Python interface.
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#include "includes/checks.h"#include "includes/element.h"#include "includes/properties.h"#include "utilities/adjoint_extensions.h"#include "utilities/geometrical_sensitivity_utility.h"#include "utilities/indirect_scalar.h"#include "custom_elements/data_containers/fluid_adjoint_derivatives.h"#include "fluid_dynamics_application_variables.h"#include "custom_elements/data_containers/qs_vms/qs_vms_adjoint_element_data.h"#include "fluid_adjoint_element.h"Namespaces | |
| Kratos | |
| REF: G. R. Cowper, GAUSSIAN QUADRATURE FORMULAS FOR TRIANGLES. | |
| Kratos::FluidAdjointElementHelperUtilities | |
Functions | |
| template<class TDerivativeDataContainerType , class TCombinedElementDataContainerType > | |
| void | Kratos::FluidAdjointElementHelperUtilities::AddFluidShapeDerivativesImpl (TDerivativeDataContainerType &rDerivativeDataHolderType, TCombinedElementDataContainerType &rCombinedElementDataContainerType, GeometricalSensitivityUtility &rGeometricalSensitivityUtility, ShapeParameter &rShapeParameter, GeometricalSensitivityUtility::ShapeFunctionsGradientType &rdNdXDerivative, const double InvDetJ, const double W, const Vector &N, const Matrix &dNdX) |
1.9.1