BoundaryConditionsSpecific | |
BoundaryConditionsSupplemental | Supplemental boundary conditions for the LBM operators |
FixupSpecific | |
FlaggingSpecific | |
InitialConditionSpecific | |
IntegratorSpecific | |
LBM4SWED2Q9< DataType > | Standard 2d Navier-Stokes LBM stencil operator |
LBMBase< micro_type, macro_type, dim > | Basic class for derivation of Lattice Boltzmann operators |
LBMBoundaryConditions< LBMType, dim > | |
LBMD1Q3< DataType > | Standard 1d Navier-Stokes LBM stencil operator |
LBMD2Q9< DataType > | Standard 2d Navier-Stokes LBM stencil operator |
LBMD2Q9DR< DataType > | |
LBMD2Q9Smag< DataType > | Standard 2d Navier-Stokes LBM stencil operator |
LBMD2Q9Thermal< DataType > | 2d Navier-Stokes LBM stencil operator with temperature field |
LBMD3Q19< DataType > | Standard 3d Navier-Stokes LBM stencil operator |
LBMD3Q19DR< DataType > | |
LBMD3Q19Thermal< DataType > | Standard 3d Navier-Stokes LBM stencil operator |
LBMExactSolution< LBMType, dim > | Basic class for exact solution computation related to Lattice Boltzmann operators |
LBMF77FileExactSolution< LBMType, dim > | At first, the user-supplied function Scheme().Output() is called to extract the relevant data from the numerical solution |
LBMF77LevelTransfer< LBMType, dim > | Interface to prolongation and restriction |
LBMFixup< LBMType, FixupType, dim > | |
LBMFixupOps | |
LBMFixupOps< LBMType, 1 > | |
LBMFixupOps< LBMType, 2 > | |
LBMFixupOps< LBMType, 3 > | |
LBMGFMBoundary< LBMType, dim > | Application of internal boundary conditions for the LBM operators |
LBMInitialCondition< LBMType, dim > | Basic class for initial conditions of Lattice Boltzmann operators |
LBMIntegrator< LBMType, dim > | Base integrator for Lattice Boltzmann operators |
LBMSpecific | |
SolverControlSpecific | |
SolverSpecific | |