/usr/lib/elmersolver-6.1/SOLVER.KEYWORDS is in libelmersolver-6.1 6.1.0.svn.5396.dfsg-2ubuntu1.
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The actual contents of the file can be viewed below.
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BC:Integer: 'Radiation Target Body'
BC:Integer: 'Target Boundaries'
BC:Integer: 'Target Nodes'
BC:Real: 'Target Coordinates'
BC:Real: 'Target Coordinates Eps'
BC:Integer: 'Free Coordinate'
BC:Integer: 'Body Id'
BC:Logical: 'Noslip Wall BC'
BC:Logical: 'Flow Force BC'
BC:Logical: 'Force BC'
BC:Logical: 'FSI BC'
BC:Logical: 'Free Moving'
BC:Logical: 'Free Surface'
BC:Logical: 'Phase Change'
BC:Real: 'Phase Velocity 1'
BC:Real: 'Phase Velocity 2'
BC:Real: 'Phase Velocity 3'
BC:Logical: 'Heat Flux BC'
BC:Logical: 'Heat Gap'
BC:Logical: 'Heat Gap Implicit'
BC:Logical: 'Magnetic Force BC'
BC:Logical: 'Wall Law'
BC:Logical: 'Normal-Tangential Magnetic Field'
BC:Logical: 'Normal-Tangential Velocity'
BC:Logical: 'Normal-Tangential Mesh Update'
BC:Logical: 'Normal-Tangential Displacement'
BC:String: 'Name'
BC:String: 'Radiation'
BC:Real: 'Boundary Layer Thickness'
BC:Real: 'Emissivity'
BC:Real: 'Transmissivity'
BC:Real: 'External Pressure'
BC:Real: 'External Temperature'
BC:Real: 'Radiation External Temperature'
BC:Real: 'Force 1'
BC:Real: 'Force 2'
BC:Real: 'Force 3'
BC:Real: 'Heat Flux'
BC:Real: 'Heat Transfer Coefficient'
BC:Real: 'Magnetic Force 1'
BC:Real: 'Magnetic Force 2'
BC:Real: 'Magnetic Force 3'
BC:Real: 'Normal Force'
BC:Real: 'Potential'
BC:Real: 'Pressure 1'
BC:Real: 'Pressure 2'
BC:Real: 'Pressure 3'
BC:Real: 'Slip Coefficient 1'
BC:Real: 'Slip Coefficient 2'
BC:Real: 'Slip Coefficient 3'
BC:Real: 'Surface Roughness'
BC:Real: 'Surface Tension Coefficient'
BC:Real: 'Surface Tension Expansion Coefficient'
BC:Real: 'Wave Flux 1'
BC:Real: 'Wave Flux 2'
BC:Real: 'Wave Impedance 1'
BC:Real: 'Wave Impedance 2'
BC:Real: 'Velocity 1'
BC:Real: 'Velocity 2'
BC:Real: 'Velocity 3'
BC:Real: 'Pressure'
BC:Real: 'Displacement 1'
BC:Real: 'Displacement 2'
BC:Real: 'Displacement 3'
BC:Real: 'Mesh Update 1'
BC:Real: 'Mesh Update 2'
BC:Real: 'Mesh Update 3'
BC:Real: 'Mesh Velocity 1'
BC:Real: 'Mesh Velocity 2'
BC:Real: 'Mesh Velocity 3'
BC:Real: 'Temperature'
BC:Real: 'Concentration'
BC:Real: 'Concentration Condition'
BC:Real: 'Concentration Flux'
BC:Real: 'External Concentration'
BC:Real: 'Mass Transfer Coefficient'
BC:Real: 'Kinetic Energy'
BC:Real: 'Epsilon Relax'
BC:Real: 'Kinetic Dissipation'
BC:Real: 'KEpsilon 1'
BC:Real: 'KEpsilon 2'
BC:Real: 'Magnetic Field 1'
BC:Real: 'Magnetic Field 2'
BC:Real: 'Magnetic Field 3'
BC:Real: 'Electric Current 1'
BC:Real: 'Electric Current 2'
BC:Real: 'Electric Current 3'
BC:Real: 'Magnetic Flux Density 1'
BC:Real: 'Magnetic Flux Density 2'
BC:Real: 'Magnetic Flux Density 3'
BC:Real: 'Magnetic Vector Potential'
BC:Real: 'Magnetic Vector Potential 1'
BC:Real: 'Magnetic Vector Potential 2'
BC:Real: 'Magnetic Vector Potential 3'
BC:Real: 'FreeSurface'
BC:Real: 'Pressure Wave 1'
BC:Real: 'Pressure Wave 2'
IC:String: 'Name'
IC:Real: 'Velocity 1'
IC:Real: 'Velocity 2'
IC:Real: 'Velocity 3'
IC:Real: 'Pressure'
IC:Real: 'Pressure Wave 1'
IC:Real: 'Pressure Wave 2'
IC:Real: 'Potential'
IC:Real: 'Displacement 1'
IC:Real: 'Displacement 2'
IC:Real: 'Displacement 3'
IC:Real: 'Mesh Update 1'
IC:Real: 'Mesh Update 2'
IC:Real: 'Mesh Update 3'
BC:Real: 'Mesh Velocity 1'
BC:Real: 'Mesh Velocity 2'
BC:Real: 'Mesh Velocity 3'
IC:Real: 'Temperature'
IC:Real: 'Concentration'
IC:Real: 'Kinetic Energy'
IC:Real: 'Kinetic Dissipation'
IC:Real: 'KEpsilon 1'
IC:Real: 'KEpsilon 2'
IC:Real: 'Magnetic Field 1'
IC:Real: 'Magnetic Field 2'
IC:Real: 'Magnetic Field 3'
IC:Real: 'Electric Current 1'
IC:Real: 'Electric Current 2'
IC:Real: 'Electric Current 3'
IC:Real: 'Magnetic Flux Density 1'
IC:Real: 'Magnetic Flux Density 2'
IC:Real: 'Magnetic Flux Density 3'
IC:Real: 'FreeSurface'
IC:Real: 'Deflection 1'
IC:Real: 'Deflection 2'
IC:Real: 'Deflection 3'
BodyForce:Logical: 'Boussinesq'
BodyForce:Logical: 'Friction Heat'
BodyForce:Logical: 'Lorentz Force'
BodyForce:Logical: 'Averaged Lorentz Force'
BodyForce:Real: 'Angular Velocity'
BodyForce:Real: 'Flow BodyForce 1'
BodyForce:Real: 'Flow BodyForce 2'
BodyForce:Real: 'Flow BodyForce 3'
BodyForce:Real: 'Heat Source'
BodyForce:Real: 'Concentration Diffusion Source'
BodyForce:Logical: 'Joule Heat'
BodyForce:Real: 'Integral Heat Source'
BodyForce:Logical: 'Smart Heater Control'
BodyForce:Real: 'Smart Heater Control Point'
BodyForce:Real: 'Smart Heater Temperature'
BodyForce:Real: 'Magnetic BodyForce 1'
BodyForce:Real: 'Magnetic BodyForce 2'
BodyForce:Real: 'Magnetic BodyForce 3'
BodyForce:Real: 'Pressure Source 1'
BodyForce:Real: 'Pressure Source 2'
BodyForce:Real: 'Stress Bodyforce 1'
BodyForce:Real: 'Stress Bodyforce 2'
BodyForce:Real: 'Stress Bodyforce 3'
BodyForce:Real: 'Stress Pressure'
BodyForce:Real: 'Stress'
BodyForce:Real: 'Strain'
BodyForce:String: 'Name'
BodyForce:Real: 'FreeSurface Accumulation'
BodyForce:Real: 'FreeSurface Accumulation Flux 1'
BodyForce:Real: 'FreeSurface Accumulation Flux 2'
BodyForce:Real: 'FreeSurface Accumulation Flux 3'
Body:Integer: 'Body Force'
Body:Integer: 'Equation'
Body:Integer: 'Material'
Body:Integer: 'Initial Condition'
Body:String: 'Name'
Body:Logical: 'Rigid Body'
Body:Integer: 'Target Bodies'
Boundary:Integer: 'Boundary Condition'
Boundary:Integer: 'Body 1'
Boundary:Integer: 'Body 2'
Boundary:Integer: 'Body Id'
Boundary:String: 'Name'
Constants:Real: 'Gravity'
Constants:Real: 'Stefan Boltzmann'
Equation:Logical: 'Check Latent Heat Release'
Equation:Logical: 'Hydrostatic Pressure'
Equation:Logical: 'KE Turbulence'
Equation:Logical: 'Plane Stress'
Solver:Logical: 'Apply Dirichlet'
Solver:Logical: 'Plane Stress'
Solver:logical: 'Calculate Loads'
Equation:Logical: 'Calculate Stresses'
Equation:Logical: 'Mesh Update'
Equation:Logical: 'Navier-Stokes'
Equation:Logical: 'Heat Equation'
Equation:Logical: 'Stress Analysis'
Equation:Real: 'KE Clip'
Equation:String: 'Convection'
Equation:String: 'Concentration Convection'
Equation:Logical: 'NS Convect'
Equation:String: 'Phase Change Model'
Equation:String: 'Name'
Equation:Integer: 'Active Solvers'
Equation:Logical: 'User Defined Velocity'
Equation:String: 'Concentration Units'
Equation:Real: 'Convection Velocity 1'
Equation:Real: 'Convection Velocity 2'
Equation:Real: 'Convection Velocity 3'
Equation:Real: 'Concentration Convection Velocity 1'
Equation:Real: 'Concentration Convection Velocity 2'
Equation:Real: 'Concentration Convection Velocity 3'
Equation:Real: 'Angular Frequency'
Equation:Real: 'Frequency'
Material:Real: 'Min FreeSurface'
Material:Real: 'Max FreeSurface'
Material:Real: 'Applied Magnetic Field 1'
Material:Real: 'Applied Magnetic Field 2'
Material:Real: 'Applied Magnetic Field 3'
Material:Real: 'Convection Velocity 1'
Material:Real: 'Convection Velocity 2'
Material:Real: 'Convection Velocity 3'
Material:Real: 'Latent Heat'
Material:Real: 'Damping'
Material:Real: 'Density'
Material:Real: 'Emissivity'
Material:Real: 'Transmissivity'
Material:Real: 'Electrical Conductivity'
Material:Real: 'Electric Conductivity'
Material:String: 'Phase Change Model'
Material:Real: 'Enthalpy'
Material:Real: 'Specific Enthalpy'
Material:Real: 'Heat Capacity'
Material:Real: 'Heat Conductivity'
Material:Real: 'Heat Expansion Coefficient'
Material:Real: 'KE C1'
Material:Real: 'KE C2'
Material:Real: 'KE Cmu'
Material:Real: 'KE SigmaE'
Material:Real: 'KE SigmaK'
Material:Real: 'KE Clip'
Material:Real: 'Magnetic Permeability'
Material:Real: 'Phase Change Intervals'
Material:Real: 'Poisson Ratio'
Material:Real: 'Reference Pressure'
Material:Real: 'Reference Temperature'
Material:Real: 'Reference EPotential'
Material:Real: 'Sound Damping'
Material:Real: 'Sound Speed'
Material:Real: 'Specific Heat Ratio'
Material:Real: 'Viscosity'
Material:Real: 'Youngs Modulus'
Material:Real: 'Artificial Compressibility'
Simulation:Real: 'Artificial Compressibility Scaling'
Solver:Real: 'Artificial Compressibility Critical Volume'
Solver:Logical: 'Artificial Compressibility Scale'
Material:Logical: 'Porous Media'
Material:Real: 'Porous Resistivity'
Material:String: 'Compressibility Model'
Material:String: 'Name'
Material:Real: 'MHD Velocity 1'
Material:Real: 'MHD Velocity 2'
Material:Real: 'MHD Velocity 3'
!
! Viscosity models
!
Material:String: 'Viscosity Model'
Material:Real: 'Viscosity Exponent'
Material:Real: 'Critical Shear Rate'
Material:Real: 'Viscosity Difference'
Material:Real: 'Viscosity Transition'
Material:Real: 'Yasuda Coefficient'
Material:Real: 'Viscosity Temp Ref'
Material:Real: 'Viscosity Temp Exp'
Material:Real: 'Viscosity Function'
Material:Real: 'Effective Viscosity'
Material:Real: 'Levelset Bandwidth'
Material:Real: 'Smagorinsky Constant'
Material:String: 'Heat Conductivity Model'
Material:String: 'Heat Conductivity Function'
!
Material:String: 'Temperature Field Variable'
Material:String: 'EPotential Field Variable'
Material:String: 'Convection Field Variable'
Solver:String: 'Advection Variable'
Solver:String: 'Rate Of Change Equation Variable'
Solver:String: 'Displacement Variable Name'
Solver:String: 'Pressure Variable Name'
Solver:String: 'Force Variable Name'
Solver:String: 'Velocity Solution Name'
Solver:Logical: 'Displaced Shape'
Solver:Logical: 'Eliminate Negative'
Material:Real: 'Species Diffusivity'
Material:Real: 'Concentration Diffusivity'
Material:Real: 'Concentration Soret Diffusivity'
Material:Real: 'Concentration Ion Charge'
BodyForce:Logical: 'Physical Units'
BC:Logical: 'Physical Units'
BC:Real: 'Mass Transfer Coefficient'
BC:Real: 'External Concentration'
Solver:Logical: 'Displace Mesh'
!
Simulation:File: 'Mesh'
Simulation:File: 'Control Procedure'
Simulation:File: 'Output File'
Simulation:File: 'Restart File'
Simulation:File: 'Post File'
Simulation:File: 'Solver Input File'
Simulation:File: 'Mesh Input File'
Simulation:Logical: 'Filename Numbering'
Simulation:Integer: 'BDF Order'
Simulation:Integer: 'Runge-Kutta Order'
Simulation:Real: 'Interpolation Relative Epsilon'
Simulation:Real: 'Interpolation Absolute Epsilon'
Simulation:Real: 'FS Theta'
Simulation:Real: 'Restart Time'
Simulation:Integer: 'Coordinate Mapping'
Simulation:Real: 'Coordinate Scaling'
Simulation:Integer: 'Output Intervals'
Simulation:Integer: 'Restart Position'
Simulation:Integer: 'Steady State Max Iterations'
Simulation:Integer: 'Steady State Min Iterations'
SImulation:Integer: 'Timestep Intervals'
Simulation:Real: 'Angular Frequency'
Simulation:Real: 'Frequency'
Simulation:Real: 'Newmark Beta'
SImulation:Real: 'Timestep Sizes'
SImulation:Real: 'Timestep Size'
Simulation:String: 'Coordinate System'
Simulation:String: 'Simulation Type'
Simulation:String: 'Timestepping Method'
Simulation:File: 'Mesh Input File'
Simulation:Logical: 'Output Prefix'
Simulation:Logical: 'Output Caller'
Simulation:Integer: 'Output Level'
Simulation:Integer: 'Max Output Level'
Simulation:Integer: 'Min Output Level'
Simulation:Logical: 'Output Caller'
Simulation:Logical: 'Output Prefix'
Simulation:Logical: 'Set Dirichlet BCs by BC Numbering'
Simulation:Logical: 'Output Version Numbers'
Simulation:Real: 'Real Time Max'
!
Solver:Real: 'Start Time'
Solver:Logical: 'Eigen System Compute Residuals'
Solver:Real: 'Eigen System Shift'
Solver:Integer: 'Eigen System Lanczos Vectors'
Solver:Integer: 'Eigen System Values'
Solver:Real: 'Eigen System Convergence Tolerance'
Solver:Integer: 'Eigen System Max Iterations'
Solver:Logical: 'Eigen System Use Identity'
Solver:Logical: 'Eigen System Complex'
Solver:Integer: 'Linear System Max Iterations'
Solver:Integer: 'Linear System Residual Output'
Solver:Integer: 'Linear System Precondition Recompute'
Solver:Integer: 'Nonlinear System Min Iterations'
Solver:Integer: 'Nonlinear System Max Iterations'
Solver:Integer: 'Nonlinear System Newton After Iterations'
Solver:Real: 'Nonlinear System Max Norm'
Solver:Real: 'Time Derivative Condition'
Solver:Integer: 'Time Derivative Order'
Solver:Logical: 'Time Derivative Active'
Solver:Integer: 'Variable DOFs'
Solver:Logical: 'Variable Output'
Solver:Logical: 'Discontinuous Galerkin'
Solver:Logical: 'Bubbles'
Solver:Logical: 'Bubbles in Global System'
Solver:Logical: 'Eigen Analysis'
Solver:Logical: 'Stability Analysis'
Solver:Logical: 'Geometric Stiffness'
Solver:Logical: 'Linear System Symmetric'
Solver:Logical: 'Linear System Symmetric ILU'
Solver:Logical: 'Lumped Mass Matrix'
Solver:Logical: 'Optimize Bandwidth'
Solver:Logical: 'Stabilize'
Solver:String: 'Stabilization Method'
Solver:Logical: 'Calculate Stresses'
Solver:Logical: 'Calculate Strains'
Solver:Logical: 'Calculate Principal'
Solver:Logical: 'Calculate PAngle'
Solver:Logical: 'Linear System Scaling'
Solver:Logical: 'Internal Move Boundary'
Solver:Logical: 'Use Absolute Norm For Convergence'
Solver:File: 'Procedure'
Solver:Real: 'Linear System Convergence Tolerance'
Solver:Real: 'Eigen System Convergence Tolerance'
Solver:Real: 'Linear System ILUT Tolerance'
Solver:Integer: 'Linear System GMRES Restart'
Solver:Real: 'Nonlinear System Convergence Tolerance'
Solver:String: 'Nonlinear System Convergence Measure'
Solver:Integer: 'Nonlinear System Norm Degree'
Solver:Integer: 'Nonlinear System Norm Dofs'
Solver:Integer: 'Nonlinear System Norm Components'
Solver:String: 'Steady State Convergence Measure'
Solver:Real: 'Nonlinear System Newton After Tolerance'
Solver:Real: 'Nonlinear System Relaxation Factor'
Solver:Real: 'Steady State Convergence Tolerance'
Solver:Real: 'Eigen System Shift'
Solver:File: 'Before Linsolve'
Solver:File: 'After Linsolve'
Solver:File: 'Mesh'
Solver:String: 'Eigen System Select'
Solver:String: 'Equation'
Solver:String: 'Linear System Direct Method'
Solver:String: 'Linear System Iterative Method'
Solver:String: 'Linear System Preconditioning'
Solver:String: 'Linear System Solver'
Solver:Integer: 'BicgStabl Polynomial Degree'
Solver:Integer: 'Linear System GCR Restart'
Solver:String: 'Variable'
Solver:String: 'Name'
Solver:String: 'Exec Solver'
Solver:Logical: 'Initialize'
Solver:Logical: 'After All'
Solver:Logical: 'After Simulation'
Solver:Logical: 'Before All'
Solver:Logical: 'Before Simulation'
Solver:Logical: 'After Timestep'
Solver:Logical: 'Before Timestep'
Solver:Logical: 'Linear System Abort Not Converged'
Simulation:Logical: 'Coupled System Abort Not Converged'
Solver:Real: 'Newmark Beta'
Solver:Integer: 'BDF Order'
Solver:Integer: 'Runge-Kutta Order'
Solver:Integer: 'Exec Interval'
Solver:String: 'Timestepping Method'
Solver:Logical: 'UMF Factorize'
Solver:Logical: 'Linear System Refactorize'
Solver:Logical: 'Linear System Use HYPRE'
Solver:Logical: 'Eigen System Damped'
Solver:Logical: 'No Precondition Recompute'
!
! Adaptive (in space) keywords
!
Solver:Logical: 'Adaptive Mesh Refinement'
Solver:Integer: 'Adaptive Max Depth'
Solver:Logical: 'Adaptive Remesh'
Solver:Logical: 'Adaptive Save Mesh'
Solver:Logical: 'Adaptive Coarsening'
Solver:File: 'Adaptive Mesh Name'
Solver:Real: 'Adaptive Max H'
Solver:Real: 'Adaptive Min H'
Solver:Real: 'Adaptive Max Change'
Solver:Real: 'Adaptive Error Limit'
Solver:Integer: 'Adaptive Pre Smoothing'
Solver:String: 'Mesh Input File'
!
! Adaptive timestepping
!
Simulation:Logical: 'Adaptive Timestepping'
Simulation:Integer: 'Adaptive Keep Smallest'
Simulation:Real: 'Adaptive Max Timestep'
Simulation:Real: 'Adaptive Min Timestep'
Simulation:Real: 'Adaptive Time Error'
Simulation:Real: 'Adaptive Error Measure'
!
! Periodic BC settings
!
BC:Integer: 'Periodic BC'
BC:Real: 'Periodic BC Matrix'
BC:Real: 'Periodic BC Rotate'
BC:Real: 'Periodic BC Scale'
BC:Real: 'Periodic BC Translate'
BC:Logical: 'Periodic BC Pressure'
BC:Logical: 'Periodic BC Velocity 1'
BC:Logical: 'Periodic BC Velocity 2'
BC:Logical: 'Periodic BC Velocity 3'
BC:Logical: 'Periodic BC Temperature'
BC:Logical: 'Periodic BC Concentration'
BC:Logical: 'Periodic BC Freesurface'
BC:Logical: 'Periodic BC Mesh Update 1'
BC:Logical: 'Periodic BC Mesh Update 2'
BC:Logical: 'Periodic BC Mesh Update 3'
BC:Logical: 'Periodic BC Displacement 1'
BC:Logical: 'Periodic BC Displacement 2'
BC:Logical: 'Periodic BC Displacement 3'
BC:Logical: 'Periodic BC Explicit'
!
! Multigrid settings
!
Solver:Integer: 'Multigrid Levels'
Solver:Integer: 'MG Levels'
Solver:Logical: 'MG Equal Split'
Solver:File: 'MG Mesh Name'
Solver:Integer: 'MG Max Iterations'
Solver:Real: 'MG Convergence Tolerance'
Solver:String: 'MG Smoother'
Solver:Integer: 'MG Pre Smoothing Iterations'
Solver:Integer: 'MG Post Smoothing Iterations'
Solver:String: 'MG Preconditioning'
Solver:Real: 'MG ILUT Tolerance'
Solver:Logical: 'MG Algebraic'
Solver:Logical: 'MG Lowest Linear Solver Iterative'
Solver:Integer: 'MG Lowest Linear Solver Limit'
Solver:Logical: 'MG Project Matrix'
Solver:Logical: 'MG Recompute Projector'
Solver:Logical: 'MG Eliminate Dirichlet'
Solver:Real: 'MG Eliminate Dirichlet Limit'
Solver:Integer: 'MG Level Max Iterations'
Solver:Real: 'MG Level Convergence Tolerance'
Solver:Integer: 'MG Sweeps'
Solver:Logical: 'MG Identical Component Projectors'
Solver:Logical: 'MG Identical Component Sets'
Solver:Logical: 'MG Coarse Nodes Save'
Solver:Logical: 'MG Compatible Relax Merit Only'
Solver:Logical: 'MG Compatible Relax Merit'
Solver:Integer: 'MG Compatible Relax Rounds'
Solver:Integer: 'MG Info Node'
Solver:Integer: 'MG Info Level'
Solver:Integer: 'MG Determining Component'
Solver:Logical: 'MG Complex Matrix'
Solver:Logical: 'MG Pseudo Geometric'
Solver:Logical: 'MG Positive Connection Eliminate'
Solver:Logical: 'MG Positive Connection Allow'
Solver:Real: 'MG Positive Connection Limit'
Solver:Real: 'MG Strong Connection Limit'
Solver:Integer: 'MG Strong Connection Maximum'
Solver:Integer: 'MG Strong Connection Minimum'
Solver:Real: 'MG Geometric Power'
Solver:Integer: 'MG Coarsening Mode'
Solver:Integer: 'MG Boundary Priority'
Solver:Real: 'MG Projection Limit'
Solver:Logical: 'MG Projection Lumping'
Solver:Logical: 'MG Direct Interpolate'
Solver:Integer: 'MG Direct Interpolate Limit'
Solver:Integer: 'MG Coarse Nodes Save Limit'
!
! Exported variable stuff
!
$ function i2str(i) { _i2str = sprintf("%g",i); }
$ nexp=32
$ for(i=1:nexp) "Solver:String: 'Exported Variable " i2str(i) "'"
$ for(i=1:nexp) "Solver:Integer: 'Exported Variable " i2str(i) " DOFs'"
$ for(i=1:nexp) "Solver:Logical: 'Exported Variable " i2str(i) " Output'"
Solver:String: 'Element'
Equation:String: 'Element' ! should not be used anymore
!
! New keywords for mems and savin data
BodyForce:Real: 'Pressure'
Material:Real: 'Thickness'
Material:Real: 'Tension'
Material:Real: 'Reference Plane'
Material:Real: 'Potential Difference'
Material:Real: 'Permittivity'
Material:Real: 'Gas Density'
Material:String: 'Hole Type'
Material:Real: 'Hole Size'
Material:Real: 'Hole Fraction'
Material:Real: 'Hole Depth'
Solver:Integer: 'Eigen Mode'
Solver:Real: 'Frequency'
Solver:File: 'Filename'
Solver:Logical: 'Hole Correction'
Solver:Logical: 'Side Correction'
Solver:Logical: 'Calculate Viscous Force'
Solver:Logical: 'Calculate Joule Heating'
Equation:Logical: 'Calculate Joule Heating'
Solver:Logical: 'Calculate Volume Current'
Solver:Logical: 'Calculate Electric Conductivity'
Solver:Logical: 'Calculate Electric Energy'
Equation:Logical: 'Calculate Electric Energy'
Solver:Logical: 'Calculate Electric Flux'
Solver:Logical: 'Calculate Electric Field'
Solver:Logical: 'Calculate Current Density'
Solver:Logical: 'Calculate Capacitance Matrix'
Solver:Logical: 'Calculate Surface Charge'
Solver:Logical: 'Calculate Magnetic Flux'
Equation:Logical: 'Calculate Capacitance Matrix'
Solver:Logical: 'Constant Weights'
Solver:Real: 'Potential Difference'
Simulation:Real: 'Potential Difference'
Solver:Integer: 'Capacitance Bodies'
BC:Integer: 'Capacitance Body'
Solver:Real: 'Minimum CoEnergy'
Solver:String: 'Capacitance Matrix Filename'
BC:Real: 'Deflection 1'
BC:Real: 'Deflection 2'
BC:Real: 'Deflection 3'
BC:Real: 'Deflection 4'
BC:Real: 'Deflection 5'
BC:Real: 'Deflection 6'
BC:Logical: 'Open Side'
BC:Logical: 'Save Line'
Body:Logical: 'Save Line'
BC:Logical: 'Calculate Fluidic Force'
BC:Real: 'Moment About'
BC:Real: 'Moment About 1'
BC:Real: 'Moment About 2'
BC:Real: 'Moment About 3'
Constants:Real: 'Permittivity Of Vacuum'
Constants:Real: 'Permeability Of Vacuum'
Solver:Logical: 'Scan Position'
Solver:Logical: 'Scan Frequency'
Solver:Integer: 'Scan Points'
Solver:Real: 'Scan Range Min'
Solver:Real: 'Scan Range Max'
Solver:Logical: 'Perturbations'
Solver:Logical: 'Rarefaction'
!
! SaveData
!
$ for(i=1:nexp) "Solver:String: 'Operator " i2str(i) "'"
$ for(i=1:nexp) "Solver:String: 'Variable " i2str(i) "'"
$ for(i=1:nexp) "Solver:String: 'Coefficient " i2str(i) "'"
$ for(i=1:nexp) "Solver:String: 'Save Variable " i2str(i) "'"
$ for(i=1:nexp) "Solver:String: 'Parameter " i2str(i) "'"
Solver:Logical: 'File Append'
Solver:Logical: 'Filename Numbering'
Solver:Logical: 'Save Axis'
Solver:Logical: 'Save Axis 1'
Solver:Logical: 'Save Axis 2'
Solver:Logical: 'Save Axis 3'
Solver:Logical: 'Save Flux'
Solver:Real: 'Save Coordinates'
Solver:Real: 'Polyline Coordinates'
Solver:String: 'Flux Variable'
Solver:String: 'Flux Coefficient'
Solver:String: 'Scalars Prefix'
Solver:String: 'Comment'
Solver:Integer: 'Save Points'
Solver:Logical: 'Exact Coordinates'
Solver:Logical: 'Complex Eigen Vectors'
Solver:Logical: 'Moving Mesh'
Solver:Logical: 'Save Eigenvalues'
Solver:Logical: 'Save Eigen Frequencies'
Solver:Logical: 'Show Norm'
Solver:Integer: 'Show Norm Index'
Solver:Logical: 'Parallel Reduce'
BC:Logical: 'Flux Integrate'
BC:Integer: 'Flux Integrate Body'
Body:Integer: 'Flux Integrate Body'
BC:Logical: 'Save Scalars'
Solver:Logical: 'Intersect Edge'
Solver:Integer: 'Intersect Coordinate'
Solver:Real: 'Intersect Epsilon'
Solver:Logical: 'Save Heat Flux'
!
Material:Real: 'Layer Thickness'
Material:Real: 'Layer Permittivity'
Material:Real: 'Relative Permittivity'
Material:Real: 'Relative Permeability'
BC:Logical: 'Calculate Electric Force'
BC:Logical: 'Electric Flux BC'
BC:Real: 'Electric Flux'
BodyForce:Real: 'Current Density'
BodyForce:Real: 'Current Density 1'
BodyForce:Real: 'Current Density 2'
BodyForce:Real: 'Current Density 3'
BodyForce:Real: 'Magnetization 1'
BodyForce:Real: 'Magnetization 2'
BodyForce:Real: 'Magnetization 3'
!
BodyForce:Real: 'Current Phase Angle'
BodyForce:Real: 'Charge Density'
BodyForce:Real: 'Current Source'
BC:Logical: 'Current Density BC'
BC:Real: 'Current Density'
BC:Real: 'Current Density 1'
BC:Real: 'Current Density 2'
BC:Real: 'Current Density 3'
!
! New keywords related to Acoustic Equations
!
Equation:Logical: 'Acoustic Equations'
Solver:Logical: 'Utilize Previous Solution'
Solver:Real: 'Coupled System Relaxation Factor'
BC:Real: 'Re Velocity 1'
BC:Real: 'Im Velocity 1'
BC:Real: 'Re Velocity 2'
BC:Real: 'Im Velocity 2'
BC:Real: 'Re Velocity 3'
BC:Real: 'Im Velocity 3'
BC:Real: 'Re Temperature'
BC:Real: 'Im Temperature'
BC:Real: 'Re Surface Traction 1'
BC:Real: 'Im Surface Traction 1'
BC:Real: 'Re Surface Traction 2'
BC:Real: 'Im Surface Traction 2'
BC:Real: 'Re Surface Traction 3'
BC:Real: 'Im Surface Traction 3'
BC:Real: 'Re Specific Acoustic Impedance'
BC:Real: 'Im Specific Acoustic Impedance'
BC:Real: 'Re Specific Thermal Impedance'
BC:Real: 'Im Specific Thermal Impedance'
BC:Real: 'Re Normal Velocity'
BC:Real: 'Im Normal Velocity'
BC:Real: 'Re Normal Force'
BC:Real: 'Im Normal Force'
BC:Real: 'Momentum Accommodation Coefficient'
BC:Real: 'Energy Accommodation Coefficient'
BC:Real: 'Re Reference Wall Velocity'
BC:Real: 'Im Reference Wall Velocity'
BC:Real: 'Reference Wall Temperature'
BC:Logical: 'Slip Boundary'
BC:Logical: 'Prescribed Normal Velocity'
BC:Logical: 'Wall Temperature'
BC:Logical: 'No Slip Condition'
Material:Real: 'Specific Heat'
Material:Real: 'Equilibrium Density'
Material:Real: 'Equilibrium Temperature'
Material:Real: 'Bulk Viscosity'
Material:Real: 'Re Heat Source'
Material:Real: 'Im Heat Source'
Material:Real: 'Re Body Force 1'
Material:Real: 'Im Body Force 1'
Material:Real: 'Re Body Force 2'
Material:Real: 'Im Body Force 2'
Material:Real: 'Re Body Force 3'
Material:Real: 'Im Body Force 3'
! radiation factors specific stuff
! general
Simulation:File: 'View Factors'
Simulation:File: 'Gebhardt Factors'
BC:Integer: 'Radiation Boundary'
Solver:Logical: 'Compute View Factors'
Solver:Logical: 'Update View Factors'
Solver:Logical: 'Update Gebhardt Factors'
Solver:Logical: 'Gebhardt Factors Solver Full'
Solver:Logical: 'Gebhardt Factors Solver Iterative'
Solver:Logical: 'Save Gebhardt Factors'
Solver:Logical: 'Matrix Topology Fixed'
Solver:Real: 'Implicit Gebhardt Factor Fraction'
Solver:Real: 'Neglected Gebhardt Factor Fraction'
Solver:Real: 'Minimum View Factor'
Solver:Real: 'Minimum Gebhardt Factor'
Solver:Real: 'View Factors Geometry Tolerance'
Solver:Integer: 'View Factors Fixed After Iterations'
Solver:Integer: 'Gebhardt Factors Fixed After Iterations'
Solver:Real: 'View Factors Fixed Tolerance'
Solver:Real: 'Gebhardt Factors Fixed Tolerance'
Solver:Logical: 'Back Rotate N-T Solution'
! axi symmetric
Solver:Integer: 'Viewfactor divide'
! 3D
Solver:Real: 'Viewfactor area tolerance'
Solver:Real: 'Viewfactor factor tolerance'
Solver:Real: 'Viewfactor raytrace tolerance'
Solver:Integer: 'Viewfactor number of rays'
!
! Keywords for ArteryOutlet
BC:Integer: 'Fluid Coupling With Boundary'
BC:Integer: 'Structure Coupling With Boundary'
Material:Real: 'Artery Wall Youngs Modulus'
Material:Real: 'Artery Radius'
Material:Real: 'Artery Wall Thickness'
Material:Real: 'Artery Poisson Ratio'
Solver:String: 'Velocity Field Name'
Solver:Logical: 'Consider Viscous Force'
Solver:Logical: 'Consider Compressibility'
!
! Keywords for DCRComplexSolve
Material:Real: 'Amatrix'
Material:Real: 'Avector 1'
Material:Real: 'Avector 2'
Material:Real: 'Ascalar 1'
Material:Real: 'Ascalar 2'
Material:Real: 'Bvector'
Material:Real: 'Bscalar 1'
Material:Real: 'Bscalar 2'
!
! Keywords for DFTSolver
Solver:Integer: 'Number of Eigenmodes Included'
Solver:Real: 'Weights of Eigen States'
Solver:String: 'XC Potential type'
Solver:Real: 'Eigen System Shifting Constant'
Solver:Integer: 'NOFnuclei'
Solver:Real: 'NucleiTable'
Solver:String: 'Relaxation Method'
Solver:Real: 'Relaxation Parameter A'
Solver:Real: 'Relaxation Parameter B'
Solver:Real: 'Relaxation Parameter C'
Solver:Real: 'Start GRPulay if relaxation factor is more than'
Solver:Integer: 'Start GRPulay after iterations'
!
! Keywords for Electrokinetics
Simulation:Logical: 'Initializaton Phase'
BC:Real: 'Zeta Potential'
BC:Real: 'EO Mobility'
Equation:String: 'Electric Field'
Material:Real: 'Electric Field 1'
Material:Real: 'Electric Field 2'
Material:Real: 'Electric Field 3'
! New keywords for StatCurrent and MagStat
Solver:Real: 'Current Control'
Solver:Real: 'Power Control'
!
! Keywords for FindOptimum
$ for(i=1:nexp) "Simulation:Real: 'Initial Parameter " i2str(i) "'"
$ for(i=1:nexp) "Solver:Real: 'Max Parameter " i2str(i) "'"
$ for(i=1:nexp) "Solver:Real: 'Min Parameter " i2str(i) "'"
$ for(i=1:nexp) "Solver:Logical: 'Fixed Parameter " i2str(i) "'"
Solver:String: 'Optimization Method'
Simulation:Real: 'Cost Function'
Solver:String: 'Cost Function Name'
Solver:File: 'History File'
Solver:File: 'Best File'
Solver:Real: 'Optimization Accuracy'
Solver:Integer: 'Population Size'
Solver:Real: 'Population Coefficient'
Solver:Real: 'Population Crossover'
Solver:Real: 'Step Size'
!
! Keywords for LevelSet
Material:Real: 'Levelset Velocity 1'
Material:Real: 'Levelset Velocity 2'
Material:Real: 'Levelset Velocity 3'
BodyForce:Real: 'Levelset Flux'
Solver:Integer: 'Reinitialize Interval'
Solver:Integer: 'Extract Interval'
Solver:String: 'Levelset Variable'
Solver:Logical: 'Levelset Convect'
Solver:Real: 'Narrow Band'
Solver:Logical: 'Reinitialize Passive'
Simulation:Real: 'Levelset Bandwidth'
Solver:Real: 'Levelset Bandwidth'
Solver:Logical: 'Conserve Volume'
Solver:Real: 'Conserve Volume Relaxation'
Solver:Real: 'Initial Volume'
Solver:Real: 'Curvature Diffusion'
BC:Logical: 'Levelset Curvature BC'
Solver:Real: 'Curvature Coefficient'
Simulation:Real: 'Levelset Courant Number'
Simulation:Logical 'Levelset Timestep Directional'
!
! Keywords for MovingElstatSolver
Solver:Logical: 'Save Displacements'
Solver:Logical: 'Calculate Moment'
Solver:Logical: 'Calculate Force'
!
! Keywords for PoissonBoltzmannSolve
Solver:Logical: 'Calculate Electric Charge'
Constants:Real: 'Boltzmann Constant'
Constants:Real: 'Unit Charge'
BC:Real: 'Surface Charge'
Material:Real: 'Poisson Boltzmann Alpha'
Material:Real: 'Poisson Boltzmann Beta'
Material:Integer: 'Charge Number'
Material:Integer: 'Positive Charge Number'
Material:Integer: 'Negative Charge Number'
Material:Real: 'Ion Density'
Material:Real: 'Positive Ion Density'
Material:Real: 'Negative Ion Density'
!
! Keywords for ResultOutputSolve
Solver:Logical: 'Gid Format'
Solver:Logical: 'VTK Format'
Solver:Logical: 'Dx Format'
Solver:Logical: 'VTU Format'
Solver:Logical: 'ElmerPost Format'
Solver:String: 'Output Format'
Solver:String: 'Output File Name'
Solver:Logical: 'Enforce Parallel Format'
Solver:Logical: 'Binary Output'
Solver:Logical: 'Single Precision'
$ for(i=1:nexp) "Solver:String: 'Scalar Field " i2str(i) "'"
$ for(i=1:nexp) "Solver:String: 'Vector Field " i2str(i) "'"
$ ndim=3
$ for(i=1:nexp) for(j=1:ndim) "Solver:String: 'Vector Field " i2str(i) " Component " i2str(j) "'"
$ for(i=1:nexp) "Solver:String: 'Tensor Field " i2str(i) "'"
$ for(i=1:16) for(j=1:6) "Solver:String: 'Tensor Field " i2str(i) " Component " i2str(j) "'"
!
! Keywords for ShellSolve
Solver:Logical: 'Large Deflection'
Solver:Logical: 'Stress Computation'
Solver:Real: 'Shear Stabilization Parameter'
Solver:Real: 'Drilling Stabilization Parameter'
Solver:Real: 'Load Scale Factor'
BodyForce:Real: 'Body Force 1'
BodyForce:Real: 'Body Force 2'
BodyForce:Real: 'Body Force 3'
BodyForce:Real: 'Normal Pressure'
BC:Real: 'Force 4'
BC:Real: 'Force 5'
BC:Real: 'Force 6'
BodyForce:Real: 'Point Load'
Solver:Logical: 'Compute Strains'
Solver:Logical: 'Compute Curvatures'
!
! Keywords for Stokes
Solver:Logical: 'Block Preconditioning'
Solver:String: 'Outer Iteration Method'
Solver:Logical: 'Componentwise Preconditioning'
Solver:Real: 'Ratio of Convergence Tolerances'
Solver:Integer: 'Max Outer Iterations'
BC:Logical: 'Outflow Boundary'
Solver:Logical: 'Convect'
Solver:Integer: 'ILU Order for Schur Complement'
Solver:Integer: 'ILU Order for Velocities'
Solver:Integer: 'Max Outer GCR Cycles'
Solver:Integer: 'Max Inner GCR Iterations'
Solver:Real: 'Residual Reduction Ratio'
Solver:Logical: 'Use Truncation'
Solver:Integer: 'Max GCR Restarts'
!
! Keywords for ReloadData
Solver:File: 'Reload Solution File'
Solver:Integer: 'Reload Starting Position'
Solver:Integer: 'Reload Range Minimum'
Solver:Integer: 'Reload Range Maximum'
Solver:Integer: 'Reload Reading Intervals'
Solver:Logical: 'Continuous Reading'
!
! Misc keywords (added Apr 23 2007)
Solver:Logical: 'Elasticity Solver Linear'
Solver:Integer: 'Potential Solver ID'
Solver:Logical: 'All Displaced Boundaries'
Solver:String: 'Displacement Field Name'
Solver:String: 'Flow Model'
Simulation:Real: 'Moment About 1'
Simulation:Real: 'Moment About 2'
Simulation:Real: 'Moment About 3'
Simulation:Logical: 'Initialize Dirichlet Conditions'
Simulation:Real: 'Timestep Function'
Solver:Real: 'Timestep Scale'
Simulation:Logical: 'Binary Output'
Simulation:Logical: 'Omit unchanged variables in output'
Solver:Logical: 'Harmonic Analysis'
Solver:Logical: 'Harmonic Simulation'
BodyForce:Real: 'AC Magnetic Field Re'
BodyForce:Real: 'AC Magnetic Field Im'
BodyForce:Real: 'AC Magnetic Field 1 Re'
BodyForce:Real: 'AC Magnetic Field 1 Im'
BodyForce:Real: 'AC Magnetic Field 2 Re'
BodyForce:Real: 'AC Magnetic Field 2 Im'
BodyForce:Real: 'AC Magnetic Field 3 Re'
BodyForce:Real: 'AC Magnetic Field 3 Im'
Solver:String: 'Solver Coordinate System'
Solver:Logical: 'Div Discretization'
Solver:Logical: 'Gradp Discretization'
Solver:Integer: 'Free Surface After Iterations'
Solver:Real: 'Free Surface Relaxation Factor'
Solver:Real: 'Free Surface Convergence Tolerance'
Solver:Real: 'Free Surface Max Iterations'
BodyForce:Logical: 'Hydrostatic Pressure'
Material:Real: 'Artificial Pressure'
BodyForce:Logical: 'Potential Force'
BodyForce:Real: 'Potential Field'
BodyForce:Real: 'Potential Coefficient'
BC:Real: 'Mass Flux'
BC:Logical: 'Circle Boundary'
BC:Real: 'Circle X'
BC:Real: 'Circle Y'
BC:Real: 'Circle R'
Solver:Logical: 'Shear Stress Output'
Solver:String: 'Shear Stress Output File'
Solver:Logical: 'Sum Forces'
Solver:Logical: 'Perform Mapping'
BC:Logical: 'Free Surface Reduced'
BC:Integer: 'Free Surface Number'
BC:Logical: 'Free Surface Bottom'
Solver:Real: 'Velocity Implicity'
Solver:Real: 'Maximum Displacement'
Solver:Logical: 'Use Accumulation'
Solver:Logical: 'Normal Flux'
BodyForce:Real: 'Accumulation Ablation'
BodyForce:Real: 'Accumulation Flux 1'
BodyForce:Real: 'Accumulation Flux 2'
BodyForce:Real: 'Accumulation Flux 3'
Solver:Logical: 'Radiation Solver'
Solver:String: 'Temperature Convection Field'
BodyForce:Logical: 'Smart Heater Control'
BC:Logical: 'Smart Heater Boundary'
BC:Real: 'Smart Heater Temperature'
Solver:Logical: 'Smart Heater Average'
Solver:Real: 'Smart Heater Control After Tolerance'
Solver:Real: 'Smart Heater Time Scale'
Solver:Real: 'Smart Heater Relaxation Factor'
Solver:Real: 'Smart Heater Power Sensitivity'
BC:Logical: 'Phase Change'
Material:Real: 'Melting Point'
Solver:Logical: 'Constant System'
Solver:Logical: 'Constant Bulk System'
Solver:Logical: 'Constant Bulk Matrix'
Solver:Logical: 'Save Bulk System'
Material:Real: 'Pressure Coefficient'
BC:Logical: 'Radiation Boundary Open'
BC:Real: 'Potential 1'
BC:Real: 'Potential 2'
BC:Real: 'Flux 1'
BC:Real: 'Flux 2'
BC:Logical: 'Acoustic Interface'
Material:String: 'KE Model'
BC:Real: 'Flux'
BodyForce:Real: 'Source'
Solver:Logical: 'Skip Volume Computing'
Solver:String: 'Advection'
Material:Real: 'Advection Velocity 1'
Material:Real: 'Advection Velocity 2'
Material:Real: 'Advection Velocity 3'
Solver:Integer: 'Material Index'
Solver:Integer: 'Body Force Index'
BodyForce:Real: 'Temperature Passive'
BodyForce:Real: 'Displacement Passive'
BC:Real: 'Temperature Condition'
BC:Real: 'Velocity 1 Condition'
BC:Real: 'Velocity 2 Condition'
BC:Real: 'Velocity 3 Condition'
BC:Real: 'Displacement 1 Condition'
BC:Real: 'Displacement 2 Condition'
BC:Real: 'Displacement 3 Condition'
BC:Real: 'Potential Condition'
BC:Real: 'Pressure Wave 1 Condition'
BC:Real: 'Pressure Wave 2 Condition'
BodyForce:Real: 'Temperature Condition'
BodyForce:Real: 'Velocity 1 Condition'
BodyForce:Real: 'Velocity 2 Condition'
BodyForce:Real: 'Velocity 3 Condition'
BodyForce:Real: 'Displacement 1 Condition'
BodyForce:Real: 'Displacement 2 Condition'
BodyForce:Real: 'Displacement 3 Condition'
BodyForce:Real: 'Potential Condition'
BC:Real: 'Temperature Load'
BC:Real: 'Potential Load'
BodyForce:Real: 'Temperature Load'
BodyForce:Real: 'Potential Load'
BC:Real: 'Normal Vector'
Solver:Real: 'Bossak Alpha'
Simulation:Real: 'Bossak Alpha'
Solver:Logical: 'Export Lagrange Multiplier'
Solver:String: 'Lagrange Multiplier Name'
BodyForce:Logical: 'Piezo Material'
Material:Real: 'Piezo Material Coefficients'
BC:Real: 'Surface Charge Density'
BC:Real: 'Layer Relative Permittivity'
BC:Real: 'Layer Thickness'
BC:Real: 'Electrode Potential'
BC:Real: 'Layer Charge Density'
Solver:Real: 'Angular Frequency'
Solver:Real: 'Desired Heating Power'
Solver:String: 'Stream Function Velocity Variable'
Solver:Integer: 'Stream Function First Node'
Solver:Logical: 'Stream Function Shifting'
Solver:Logical: 'Stream Function Scaling'
Solver:Logical: 'Stokes Stream Function'
Solver:Logical: 'Contact'
Solver:Logical: 'Update Transient System'
Solver:Logical: 'Model Lumping'
Solver:String: 'Model Lumping Filename'
Solver:Logical: 'Symmetrisize'
Solver:Logical: 'Fix Displacement'
Solver:Real: 'Uzawa Parameter'
Material:Real: 'Stress'
Material:Real: 'Strain'
Material:Logical: 'Rotate Elasticity Tensor'
Material:Real: 'Material Coordinates Unit Vector 1'
Material:Real: 'Material Coordinates Unit Vector 2'
Material:Real: 'Material Coordinates Unit Vector 3'
Material:Real: 'Mesh Velocity 1'
Material:Real: 'Mesh Velocity 2'
Material:Real: 'Mesh Velocity 3'
BC:Real: 'Stress'
BC:Real: 'Damping'
BC:Real: 'Spring'
BC:Real: 'Contact Limit'
BC:Logical: 'Model Lumping Boundary'
BC:Logical: 'Contact Boundary'
Solver:Real: 'Max Mesh Update'
Material:Real: 'Mesh Elastic Modulus'
Material:Real: 'Mesh Poisson Ratio'
BC:Real: 'Mesh Force 1'
BC:Real: 'Mesh Force 2'
BC:Real: 'Mesh Force 3'
BC:Real: 'Mesh Normal Force'
Solver:Logical: 'Compute Mesh Velocity'
Solver:Logical: 'Additional Info'
Solver:Logical: 'Extend Elastic Region'
Solver:Integer: 'Extend Elastic Layers'
Solver:Logical: 'Output Node Types'
Solver:Logical: 'Optimize Matrix Structure'
Solver:Logical: 'Reverse Ordering'
Solver:Logical: 'Linear system timing'
Solver:Logical: 'Linear system timing cumulative'
Solver:Logical: 'Solver timing'
Solver:Logical: 'Solver timing cumulative'
!
! Keywords for HYPRE
Solver:Logical: 'Linear System Use HYPRE'
Solver:Real: 'Parasails Threshold'
Solver:Real: 'Parasails Filter'
Solver:Integer: 'Parasails MaxLevel'
Solver:Integer: 'Parasails Symmetry'
Solver:Integer: 'BoomerAMG Relax Type'
Solver:Integer: 'BoomerAMG Coarsen Type'
Solver:Integer: 'BoomerAMG Num Sweeps'
Solver:Integer: 'BoomerAMG Max Levels'
Solver:Integer: 'BoomerAMG Interpolation'
Solver:Integer: 'BoomerAMG Smooth Type'
Solver:Integer: 'BoomerAMG Cycle Type'
!
! keywords for RichardsSolver
Material:String: 'Porosity Model'
Material:Real: 'Hydraulic Conductivity'
! default model
Material:Real: 'Water Content',
Material:Real: 'Saturated Hydraulic Conductivity'
! van genuchten model
Material:Real: 'van Genuchten Alpha'
Material:Real: 'van Genuchten N'
Material:Real: 'van Genuchten M'
Material:Real: 'Residual Water Content'
Material:Real: 'Saturated Water Content'
Solver:Integer: 'Active Coordinate'
Solver:Logical: 'Saturated Initial Guess'
BodyForce:Real: 'Richards Source'
BC:Real: 'Richards Flux'
BC:Real: 'Total Head'
!
! keywords for ReynoldsSolver
Solver:Logical: 'Cavitation'
Solver:Real: 'Cavitation Pressure'
BC:Real: 'FilmPressure'
BC:Real: 'FilmPressure Condition'
BC:Logical: 'Periodic BC Filmpressure'
BodyForce:Real: 'FilmPressure'
BodyForce:Real: 'FilmPressure Condition'
IC:Real: 'FilmPressure'
IC:Real: 'FilmPressure Loads'
Material:Real: 'Surface Velocity 1'
Material:Real: 'Surface Velocity 2'
Material:Real: 'Surface Velocity 3'
Material:Real: 'Normal Velocity'
Material:Real: 'Tangent Velocity 1'
Material:Real: 'Tangent Velocity 2'
Material:Real: 'Tangent Velocity 3'
Material:Real: 'Gap Height'
Material:Real: 'Flow Admittance'
Material:Real: 'Bulk Modulus'
Material:Real: 'Mean free path'
Equation:Real: 'Surface Velocity 1'
Equation:Real: 'Surface Velocity 2'
Equation:Real: 'Surface Velocity 3'
Equation:Real: 'Normal Velocity'
Equation:Real: 'Tangent Velocity 1'
Equation:Real: 'Tangent Velocity 2'
Equation:Real: 'Tangent Velocity 3'
! ReynoldsPostprocess
Solver:Logical: 'Calculate Heating'
Solver:Logical: 'Calculate Force'
Solver:Logical: 'Calculate Flux'
! FluxSolver
Solver:String: 'Target Variable'
Solver:Logical: 'Calculate Grad'
Solver:Logical: 'Calculate Grad Magnitude'
Solver:Logical: 'Calculate Flux Magnitude'
Solver:Logical: 'Enforce Positive Magnitude'
! Soft limiters
Solver:Logical: 'Apply Limiter'
Solver:Real: 'Limiter Load Tolerance'
Solver:Real: 'Limiter Value Tolerance'
Solver:Logical: 'Limiter Load Sign Negative'
BodyForce:Real: 'Filmpressure Lower Limit'
BodyForce:Real: 'Temperature Lower Limit'
BodyForce:Real: 'Pressure Lower Limit'
! IsosurfaceSolver
Solver:String: 'Isosurface Variable'
Solver:Real: 'Isosurface Values'
Solver:Real: 'Isosurface Value'
Solver:String: 'Output Directory'
Solver:String: 'Mesh Name'
! Ability to split the mesh
Simulation:Integer: 'Mesh Levels'
Simulation:Integer: 'Mesh Keep'
Simulation:Logical: 'Mesh Keep Grading'
Simulation:Real: 'Mesh Grading Power'
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