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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 <qsvms_data.h>
Public Types | |
Type Definitions | |
| using | NodalScalarData = typename FluidElementData< TDim, TNumNodes, false >::NodalScalarData |
| using | NodalVectorData = typename FluidElementData< TDim, TNumNodes, false >::NodalVectorData |
 Public Types inherited from Kratos::FluidElementData< TDim, TNumNodes, false > | |
| using | NodalScalarData = array_1d< double, TNumNodes > |
| using | NodalVectorData = BoundedMatrix< double, TNumNodes, TDim > |
| using | NodalTensorData = std::array< BoundedMatrix< double, TDim, TDim >, TNumNodes > |
| using | ShapeFunctionsType = array_1d< double, TNumNodes > |
| using | ShapeDerivativesType = BoundedMatrix< double, TNumNodes, TDim > |
| using | MatrixRowType = MatrixRow< Matrix > |
Public Attributes | |
Public Members | |
| NodalVectorData | Velocity |
| NodalVectorData | MeshVelocity |
| NodalVectorData | BodyForce |
| NodalVectorData | MomentumProjection |
| NodalScalarData | Pressure |
| NodalScalarData | MassProjection |
| double | Density |
| double | DynamicViscosity |
| double | CSmagorinsky |
| double | DeltaTime |
| double | DynamicTau |
| int | UseOSS |
| double | ElementSize |
| BoundedMatrix< double, TNumNodes *(TDim+1), TNumNodes *(TDim+1)> | LHS |
| Auxiliary container for the local matrix at the integration point (stored to save reallocation at each point) More... | |
| Public Attributes inherited from Kratos::FluidElementData< TDim, TNumNodes, false > | |
| unsigned int | IntegrationPointIndex |
| double | Weight |
| ShapeFunctionsType | N |
| ShapeDerivativesType | DN_DX |
| Vector | StrainRate |
| Strain rate (symmetric gradient of velocity) vector in Voigt notation. More... | |
| Vector | ShearStress |
| Shear stress vector in Voigt notation. More... | |
| Matrix | C |
| Constitutive tensor C (expressed as a Matrix). More... | |
| ConstitutiveLaw::Parameters | ConstitutiveLawValues |
| Constitutive law configuration (stored here to avoid re-initialization within the element). More... | |
| double | EffectiveViscosity |
| Effective viscosity (in dynamic units) produced by the constitutive law. More... | |
Public Operations | |
| void | Initialize (const Element &rElement, const ProcessInfo &rProcessInfo) override |
| static int | Check (const Element &rElement, const ProcessInfo &rProcessInfo) |
Additional Inherited Members | |
| Public Member Functions inherited from Kratos::FluidElementData< TDim, TNumNodes, false > | |
| FluidElementData () | |
| Default constructor. More... | |
| FluidElementData (FluidElementData const &rOther)=delete | |
| (deleted) copy constructor. More... | |
| virtual | ~FluidElementData () |
| Destructor. More... | |
| FluidElementData & | operator= (FluidElementData const &rOther)=delete |
| (deleted) assignment operator. More... | |
| virtual void | UpdateGeometryValues (unsigned int IntegrationPointIndex, double NewWeight, const MatrixRowType &rN, const ShapeDerivativesType &rDN_DX) |
| Static Public Member Functions inherited from Kratos::FluidElementData< TDim, TNumNodes, false > | |
| static int | Check (const Element &rElement, const ProcessInfo &rProcessInfo) |
| Static Public Attributes inherited from Kratos::FluidElementData< TDim, TNumNodes, false > | |
| constexpr static unsigned int | Dim |
| Physical space dimension for the problem. More... | |
| constexpr static unsigned int | NumNodes |
| Number of nodes of the element. More... | |
| constexpr static unsigned int | StrainSize |
| Size of the strain and stress vectors (in Voigt notation) for the formulation. More... | |
| constexpr static bool | ElementManagesTimeIntegration |
| This lets FluidElement know wether this element requires an external time scheme or not. More... | |
| Protected Member Functions inherited from Kratos::FluidElementData< TDim, TNumNodes, false > | |
| void | FillFromNodalData (NodalScalarData &rData, const Variable< double > &rVariable, const Geometry< Node > &rGeometry) |
| void | FillFromNodalData (NodalVectorData &rData, const Variable< array_1d< double, 3 >> &rVariable, const Geometry< Node > &rGeometry) |
| void | FillFromHistoricalNodalData (NodalScalarData &rData, const Variable< double > &rVariable, const Geometry< Node > &rGeometry) |
| void | FillFromHistoricalNodalData (NodalVectorData &rData, const Variable< array_1d< double, 3 >> &rVariable, const Geometry< Node > &rGeometry) |
| void | FillFromHistoricalNodalData (NodalTensorData &rData, const Variable< Matrix > &rVariable, const Geometry< Node > &rGeometry) |
| void | FillFromHistoricalNodalData (NodalScalarData &rData, const Variable< double > &rVariable, const Geometry< Node > &rGeometry, const unsigned int Step) |
| void | FillFromHistoricalNodalData (NodalVectorData &rData, const Variable< array_1d< double, 3 >> &rVariable, const Geometry< Node > &rGeometry, const unsigned int Step) |
| void | FillFromNonHistoricalNodalData (NodalScalarData &rData, const Variable< double > &rVariable, const Geometry< Node > &rGeometry) |
| void | FillFromNonHistoricalNodalData (NodalVectorData &rData, const Variable< array_1d< double, 3 >> &rVariable, const Geometry< Node > &rGeometry) |
| void | FillFromProcessInfo (double &rData, const Variable< double > &rVariable, const ProcessInfo &rProcessInfo) |
| void | FillFromProcessInfo (int &rData, const Variable< int > &rVariable, const ProcessInfo &rProcessInfo) |
| void | FillFromElementData (double &rData, const Variable< double > &rVariable, const Element &rElement) |
| void | FillFromElementData (Vector &rData, const Variable< Vector > &rVariable, const Element &rElement) |
| void | FillFromElementData (NodalScalarData &rData, const Variable< Vector > &rVariable, const Element &rElement) |
| void | FillFromProperties (double &rData, const Variable< double > &rVariable, const Properties &rProperties) |
| using Kratos::QSVMSData< TDim, TNumNodes, TElementIntegratesInTime >::NodalScalarData = typename FluidElementData<TDim,TNumNodes, false>::NodalScalarData |
| using Kratos::QSVMSData< TDim, TNumNodes, TElementIntegratesInTime >::NodalVectorData = typename FluidElementData<TDim,TNumNodes, false>::NodalVectorData |
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inlinestatic |
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inlineoverridevirtual |
Reimplemented from Kratos::FluidElementData< TDim, TNumNodes, false >.
| NodalVectorData Kratos::QSVMSData< TDim, TNumNodes, TElementIntegratesInTime >::BodyForce |
| double Kratos::QSVMSData< TDim, TNumNodes, TElementIntegratesInTime >::CSmagorinsky |
| double Kratos::QSVMSData< TDim, TNumNodes, TElementIntegratesInTime >::DeltaTime |
| double Kratos::QSVMSData< TDim, TNumNodes, TElementIntegratesInTime >::Density |
| double Kratos::QSVMSData< TDim, TNumNodes, TElementIntegratesInTime >::DynamicTau |
| double Kratos::QSVMSData< TDim, TNumNodes, TElementIntegratesInTime >::DynamicViscosity |
| double Kratos::QSVMSData< TDim, TNumNodes, TElementIntegratesInTime >::ElementSize |
| BoundedMatrix<double,TNumNodes*(TDim+1),TNumNodes*(TDim+1)> Kratos::QSVMSData< TDim, TNumNodes, TElementIntegratesInTime >::LHS |
Auxiliary container for the local matrix at the integration point (stored to save reallocation at each point)
| NodalScalarData Kratos::QSVMSData< TDim, TNumNodes, TElementIntegratesInTime >::MassProjection |
| NodalVectorData Kratos::QSVMSData< TDim, TNumNodes, TElementIntegratesInTime >::MeshVelocity |
| NodalVectorData Kratos::QSVMSData< TDim, TNumNodes, TElementIntegratesInTime >::MomentumProjection |
| NodalScalarData Kratos::QSVMSData< TDim, TNumNodes, TElementIntegratesInTime >::Pressure |
| int Kratos::QSVMSData< TDim, TNumNodes, TElementIntegratesInTime >::UseOSS |
| NodalVectorData Kratos::QSVMSData< TDim, TNumNodes, TElementIntegratesInTime >::Velocity |
1.9.1