/usr/share/elmerfront/tcl/front.edf is in elmer-common 6.1.0.svn.5396.dfsg2-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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1422 1423 1424 1425 1426 | !-------------------------------------------------------------------
! This is the default ElmerFront definition file (edf file)
! 11.06.2003
!
! NOTE: Other edf-files are Included in this file!
!-------------------------------------------------------------------
!-------------------------------------------------------------------
Panel "Simulation Parameter"
!-------------------------------------------------------------------
Field "Angular Frequency"
End Panel
! Common BC fields for Save Data
!
!-------------------------------------------------------------------
Panel "Boundary Condition"
!-------------------------------------------------------------------
Field = Flux Integrate
Type = Logical
Panel Page = 2
Field = Save Line
Type = Logical
Panel Page = 2
End Panel
!-------------------------------------------------------------------
Equation "Navier-Stokes"
!-------------------------------------------------------------------
!-------------------------------
Panel "Solver"
!-------------------------------
Field = "Linear System Precondition Recompute"
Label = "Lin.Sys.Precond. Recompute"
Type = Integer
Initial Value = 1
Panel Frame = 2
Include "SolverAdaptiveFields.edf"
End Panel
!-------------------------------
Panel "Body Force"
!-------------------------------
Field "Lorentz Force"
Type Logical
Initial Value False
End Panel
!-------------------------------
Panel "Boundary Condition"
!-------------------------------
Field Slip Coefficient 1
Field Slip Coefficient 2
Field Slip Coefficient 3
End Panel
End Equation
!-------------------------------------------------------------------
Equation "Heat Equation"
!-------------------------------------------------------------------
!-------------------------------
Panel "Solver"
!-------------------------------
Field = "Linear System Precondition Recompute"
Label = "Lin.Sys.Precond. Recompute"
Type = Integer
Initial Value = 1
Panel Frame = 2
Include "SolverAdaptiveFields.edf"
End Panel
!-------------------------------
Panel "Body Force"
!-------------------------------
Field "Joule Heat"
Type Logical
Initial Value False
End Panel
End Equation
!-------------------------------------------------------------------
Equation "Stress Analysis"
!-------------------------------------------------------------------
Exported Variable Stress
Exported Variable DOFs 6
Exported Variable VonMises
Exported Variable DOFs 1
!-------------------------------
Panel "Material"
!-------------------------------
Field "Youngs Modulus"
Size (2*dim) (2*dim)
Field "Heat Expansion Coefficient"
End Panel
!-------------------------------
Panel "Solver"
!-------------------------------
Field "Separator1"
Widget = Separator
Label = " "
Screen PadY = 2 ! NOTE: Default value for Separator is 2
Field "Eigen Analysis"
Type Logical
Initial Value False
Field "Eigen System Values"
Type Integer
Field "Time Derivative Order"
Type Integer
Display False
Initial Value 2
Field "Calculate Stresses"
Type Logical
Field = "Linear System Precondition Recompute"
Type = Integer
Label = "Lin.Sys.Precond. Recompute"
Initial Value = 1
Panel Frame = 2
Include "SolverAdaptiveFields.edf"
End Panel
End Equation
!-------------------------------------------------------------------
Equation "Helmholtz Equation"
!-------------------------------------------------------------------
Status Line Name = "Hlmz"
Process Table Name "HH"
Solver Procedure "HelmholtzSolve" "HelmholtzSolver"
Variable "Pressure"
Variable DOFs 2
!-------------------------------
Panel "Equation"
!-------------------------------
Field "Angular Frequency"
End Panel
!-------------------------------
Panel "Material"
!-------------------------------
Field "Density"
Initial Value 1.224
Field "Sound Speed"
Initial Value 340
Field "Damping"
Initial Value 0
Field "Convection Velocity 1"
Initial Value 0
Field "Convection Velocity 2"
Initial Value 0
Field "Convection Velocity 3"
Initial Value 0
End Panel
!-------------------------------
Panel "Boundary Condition"
!-------------------------------
Field "Wave Flux 1"
Label "Wave flux Re"
Field "Wave Flux 2"
Label "Wave flux Im"
Field "Wave Impedance 1"
Label "Wave impedance Re"
Field "Wave Impedance 2"
Label "Wave impedance Im"
End Panel
!-------------------------------
Panel "Body Force"
!-------------------------------
Field "Pressure Source 1"
Label "Pressure Source Re"
Field "Pressure Source 2"
Label "Pressure Source Im"
End Panel
!-------------------------------
Panel "Solver"
!-------------------------------
Include "SolverGeneric1Fields.edf"
Include "SolverLinearFields.edf"
Include "SolverNonlinearFields.edf"
Include "SolverAdaptiveFields.edf"
Include "SolverMultiGridFields.edf
End Panel
End Equation
!-------------------------------------------------------------------
Equation "Nonlinear Elasticity"
!-------------------------------------------------------------------
Status Line Name "NonLinEl"
Process Table Name "NE"
Solver Procedure "ElasticSolve" "ElasticSolver"
Variable Displacement
Variable DOFs 1 2 3
!-------------------------------
Panel "Material"
!-------------------------------
Field Density
Field Poisson Ratio
Field Youngs Modulus
End Panel
!-------------------------------
Panel "Body Force"
!-------------------------------
Field Stress BodyForce 1
Field Stress BodyForce 2
Field Stress BodyForce 3
End Panel
!-------------------------------
Panel "Equation"
!-------------------------------
Field Plane Stress
Type Logical
End Panel
!-------------------------------
Panel "Solver"
!-------------------------------
Include "SolverGeneric2Fields.edf"
Include "SolverLinearFields.edf"
Include "SolverNonlinearFields.edf"
Include "SolverAdaptiveFields.edf"
Include "SolverMultiGridFields.edf
Field Time Derivative Order
Type Integer
Display False
Initial Value 2
Field "Eigen Analysis"
Type Logical
Initial Value False
Field "Eigen System Values"
Type Integer
End Panel
!-------------------------------
Panel "Boundary Condition"
!-------------------------------
Field Force BC
Type Logical
Initial Value False
Field Force 1
Field Force 2
Field Force 3
Field Normal Force
End Panel
End Equation
!-------------------------------------------------------------------
Equation "Mesh Update"
!-------------------------------------------------------------------
Status Line Name = "Mesh"
Process Table Name "MS"
Solver Procedure "MeshSolve" "MeshSolver"
Variable Mesh Update
Variable DOFs 1 2 3
Exported Variable Mesh Velocity
Exported Variable DOFs 1 2 3
!-------------------------------
Panel "Material"
!-------------------------------
Field "Poisson Ratio"
Field "Youngs Modulus"
End Panel
!-------------------------------
Panel Solver
!-------------------------------
Include "SolverGeneric1Fields.edf"
Include "SolverLinearFields.edf"
Include "SolverMultiGridFields.edf
Field = "Nonlinear System Relaxation Factor"
Initial Value = 1
End Panel
End Equation
!-------------------------------------------------------------------
Equation "Axisymm. Mag. Vec. Pot."
!-------------------------------------------------------------------
Status Line Name "MagVecPot"
Process Table Name "MVP"
Solver Procedure "StatMagSolve" "StatMagSolver"
Variable Magnetic Vector Potential
Variable DOFs 1
!-------------------------------
Panel "Material"
!-------------------------------
Field Magnetic Permeability
End Panel
!-------------------------------
Panel "Body Force"
!-------------------------------
Field Current Density
End Panel
!-------------------------------
Panel "Solver"
!-------------------------------
Include "SolverGeneric2Fields.edf"
Include "SolverLinearFields.edf"
Include "SolverNonlinearFields.edf"
Include "SolverMultiGridFields.edf
End Panel
End Equation
!-------------------------------------------------------------------
Equation "Magnetic Induction"
!-------------------------------------------------------------------
Status Line Name "Mag. Ind."
Process Table Name "MI"
Solver Procedure "MagneticSolve" "MagneticSolver"
Variable Magnetic Field
Variable DOFs 3
!-------------------------------
Panel "Material"
!-------------------------------
Field Magnetic Permeability
Field Electrical Conductivity
Field Applied Magnetic Field 1
Field Applied Magnetic Field 2
Field Applied Magnetic Field 3
End Panel
!-------------------------------
Panel "Body Force"
!-------------------------------
Field Magnetic BodyForce 1
Field Magnetic BodyForce 2
Field Magnetic BodyForce 3
End Panel
!-------------------------------
Panel "Solver"
!-------------------------------
Include "SolverGeneric2Fields.edf"
Include "SolverLinearFields.edf"
Include "SolverNonlinearFields.edf"
Include "SolverMultiGridFields.edf
End Panel
End Equation
!-------------------------------------------------------------------
! 19.3.2004 / Antti Pursula
!
! This is an ELMER Front definition file
! Add the electrostatic equations in to Front
!
!=========================================================================
Equation "Electrostatics"
!-------------------------------------------------------------------------
Status Line Name "Electro"
Process Table Name "ES"
Solver Procedure "StatElecSolve" "StatElecSolver"
Variable "Potential"
Variable DOFs 1
!-------------------------------------------------------------------------
Panel "Constant"
Field "Permittivity Of Vacuum"
Initial Value 8.8542e-12
End Panel
!-------------------------------------------------------------------------
Panel "Solver"
Include "SolverGeneric1Fields.edf"
Include "SolverLinearFields.edf"
Include "SolverAdaptiveFields.edf"
Include "SolverMultiGridFields.edf"
End Panel
!-------------------------------------------------------------------------
Panel "Equation"
Field "Potential Difference ES"
Label = "Potential Difference"
Sif Name "Potential Difference"
Field Target = Solver
Field "Calculate Electric Field ES"
Label = "Calculate Electric Field"
Sif Name "Calculate Electric Field"
Type Logical
Initial Value True
Field Target = Solver
Field "Calculate Electric Flux ES"
Label = "Calculate Electric Flux"
Sif Name "Calculate Electric Flux"
Type Logical
Initial Value True
Field Target = Solver
Field "Calculate Electric Energy"
Label = "Calculate Electric Energy"
Sif Name "Calculate Electric Energy"
Type Logical
Initial Value False
Field Target = Solver
Field "Constant Weights ES"
Label = "Constant Weights"
Sif Name "Constant Weights"
Type Logical
Initial Value False
Field Target = Solver
Field "Calculate Capacitance Matrix"
Type Logical
Initial Value False
Field Target = Solver
Subpanel = 3
Field "Capacitance Bodies"
Type Integer
Activity Parent "Calculate Capacitance Matrix"
Field Target = Solver
Subpanel = 3
Field "Minimum CoEnergy"
Activity Parent "Calculate Capacitance Matrix"
Initial Value 1.0e-10
Field Target = Solver
Subpanel = 3
Field "Capacitance Matrix Filename"
Type File
Activity Parent "Calculate Capacitance Matrix"
Initial Value "cmatrix.dat"
Field Target = Solver
Subpanel = 3
End Panel
!-------------------------------------------------------------------------
Panel "Body Force"
Field "Charge Density"
End Panel
!-------------------------------------------------------------------------
Panel "Material"
Field "Relative Permittivity"
Initial Value 1.0
End Panel
!-------------------------------------------------------------------------
Panel "Boundary Condition"
Field "Electric Flux BC"
Type Logical
Initial Value False
Field "Electric Flux"
Activity Parent "Electric Flux BC"
Field "Capacitance Body"
Type Integer
End Panel
!-------------------------------------------------------------------------
End Equation
!=========================================================================
Equation "Static Current Conduction"
!-------------------------------------------------------------------------
Status Line Name "Current"
Process Table Name "SC"
Solver Procedure "StatCurrentSolve" "StatCurrentSolver"
Variable "Potential"
Variable DOFs 1
!-------------------------------------------------------------------------
Panel "Solver"
Include "SolverGeneric1Fields.edf"
Include "SolverLinearFields.edf"
Include "SolverMultiGridFields.edf"
End Panel
!-------------------------------------------------------------------------
Panel "Equation"
Field "Calculate Volume Current"
Type Logical
Initial Value = True
Field "Calculate Joule Heating"
Type Logical
Initial Value = True
Field "Calculate Electric Conductivity"
Type Logical
Initial Value False
Field "Constant Weights SC"
Label = "Constant Weights"
Sif Name "Constant Weights"
Type Logical
Initial Value False
Field Target = Solver
End Panel
!-------------------------------------------------------------------------
Panel "Body Force"
Field "Current Source"
End Panel
!-------------------------------------------------------------------------
Panel "Material"
Field "Electric Conductivity"
End Panel
!-------------------------------------------------------------------------
Panel "Boundary Condition"
Field "Current Density BC"
Type Logical
Initial Value False
Field "Current Density"
Activity Parent = "Current Density BC"
End Panel
!-------------------------------------------------------------------------
End Equation
!=========================================================================
! 19.3.2004 / Antti Pursula
!
! This is an ELMER Front definition file
! Add the MEM equations in to Front
!
!=========================================================================
Equation "Plate Elasticity"
!-------------------------------------------------------------------------
Status Line Name "Smitc"
Process Table Name "Sm"
Solver Procedure "Smitc" "SmitcSolver"
Variable "Deflection"
Variable DOFs 3
!-------------------------------------------------------------------------
Panel "Solver"
Include "SolverGeneric1Fields.edf"
Include "SolverLinearFields.edf"
Include "SolverNonlinearFields.edf"
Field "Eigen Analysis"
Type Logical
Initial Value False
Field "Eigen System Values"
Type Integer
Activity Parent "Eigen Analysis"
Field "Eigen System Damped"
Type Logical
Initial Value False
Activity Parent = "Eigen Analysis"
Field "Eigen System Use Identity"
Type Logical
Initial Value True
Activity Parent "Eigen System Damped"
End Panel
!-------------------------------------------------------------------------
Panel "Equation"
Field "Hole Correction Smc"
Label = "Hole Correction"
Sif Name "Hole Correction"
Type Logical
Initial Value False
Field Target = Solver
End Panel
!-------------------------------------------------------------------------
Panel "Material"
Field "Density"
Field "Poisson Ratio"
Field "Youngs Modulus"
Field "Thickness"
Field "Tension"
Field "Damping"
Field "Spring
Field "Hole Type"
Type String
Widget "Selection List"
Values {"Round" "Slot" "Square"}
Initial Value "Round"
Activity Parent = {"Equation" "Hole Correction Smc"}
Subpanel 2
Field "Hole Size"
Activity Parent = {"Equation" "Hole Correction Smc"}
Subpanel 2
Field "Hole Fraction"
Activity Parent = {"Equation" "Hole Correction Smc"}
Subpanel 2
End Panel
!-------------------------------------------------------------------------
Panel "Body Force"
Field "Pressure"
Field "Pressure B"
! Activity Parent = "Pressure"
! Activity Values {"~"}
Field "Pressure C"
! Activity Parent = "Pressure B"
! Activity Values {"~"}
End Panel
!-------------------------------------------------------------------------
End Equation
!=========================================================================
Equation "Reduced Electrostatics"
!-------------------------------------------------------------------------
Status Line Name "StatElec1D"
Process Table Name "SE1"
Solver Procedure "MEMStatElecReduced" "StatElecReduced"
Variable "ElectricForce"
Variable DOFs 1
!-------------------------------------------------------------------------
Panel "Simulation parameters"
Field "Aplac Export"
Type Logical
Initial Value False
Field "MEM Eigen Modes"
Type Integer
Initial Value = 1
End Panel
!-------------------------------------------------------------------------
Panel "Physical Constants"
Field "Permittivity Of Vacuum"
Initial Value 8.8542e-12
End Panel
!-------------------------------------------------------------------------
Panel "Solver"
Include "SolverGeneric1Fields.edf"
Include "SolverLinearFields.edf"
Include "SolverNonlinearFields.edf"
End Panel
!-------------------------------------------------------------------------
Panel "Equation"
Field "Analysis Type REl"
Label = "Analysis Type"
Sif Name "Analysis Type"
Type String
Widget "Selection List"
Values {"Full" "Pull In" "Bias" "Scan"}
Initial Value "Full"
Field Target = Solver
Field "Position Offset"
Type Logical
Initial Value False
Field Target = Solver
Field "Hole Correction REl"
Label = "Hole Correction"
Sif Name "Hole Correction"
Type Logical
Initial Value False
Field Target = Solver
Field "Side Correction REl"
Label = "Side Correction"
Sif Name "Side Correction"
Type Logical
Initial Value False
Field Target = Solver
Field "Thickness Correction"
Type Logical
Initial Value False
Field Target = Solver
Field "Calculate Electric Field REl"
Label = "Calculate Electric Field"
Sif Name "Calculate Electric Field"
Type Logical
Initial Value False
Field Target = Solver
Field "Calculate Electric Energy REl"
Label = "Calculate Electric Energy"
Sif Name "Calculate Electric Energy"
Type Logical
Initial Value False
Field Target = Solver
Field "Calculate Electric Spring"
Label = "Calculate Electric Spring"
Sif Name "Calculate Electric Spring"
Type Logical
Initial Value False
Field Target = Solver
Field "Spring Derivatives"
Type Logical
Initial Value False
Field Target = Solver
! Field "Elastic Coupling fld"
! Sif Name "Elastic Coupling"
! Type Logical
! Initial Value = True
! Activity Parent = "Analysis Type REl"
! Activity Values = {"Elastic Coupling"}
! Display "False"
! Field Target = Solver
! Field "Pull In Analysis fld"
! Sif Name "Pull In Analysis"
! Type Logical
! Initial Value = True
! Activity Parent = "Analysis Type REl"
! Activity Values = {"Pull In Analysis"}
! Display = "False"
! Field Target = Solver
! Field "Bias Voltage fld"
! Sif Name "Bias Voltage"
! Type Logical
! Initial Value = True
! Activity Parent = "Analysis Type REl"
! Activity Values = {"Bias Voltage"}
! Display = "False"
! Field Target = Solver
! Field "Scan Position fld"
! Sif Name "Scan Position"
! Type Logical
! Initial Value = True
! Activity Parent = "Analysis Type REl"
! Activity Values = {"Scan Position"}
! Display = "False"
! Field Target = Solver
Field "Scan Range Min REl"
Label = "Scan Range Min"
Sif Name "Scan Range Min"
Activity Parent = "Analysis Type REl"
Activity Values = {"Scan Position"}
Field Target = Solver
Subpanel 3
Field "Scan Range Max REl"
Label = "Scan Range Max"
Sif Name "Scan Range Max"
Activity Parent = "Analysis Type REl"
Activity Values = {"Scan Position"}
Field Target = Solver
Subpanel 3
Field "Scan Points REl"
Label = "Scan Points"
Sif Name "Scan Points"
Type Integer
Activity Parent = "Analysis Type REl"
Activity Values = {"Scan Position"}
Field Target = Solver
Subpanel 3
Field "Filename REl"
Label "Log File Name"
Sif Name "Filename"
Type File
Activity Parent = "Analysis Type REl"
Activity Values = {"~Elastic Coupling"}
Initial Value "elstat.dat"
Field Target = Solver
Subpanel 3
Field "File Append"
Label "Append Log File"
Type Logical
Activity Parent = "Analysis Type REl"
Activity Values = {"~Elastic Coupling"}
Initial Value True
Field Target = Solver
Subpanel 3
Field "Lumping Degree"
Type Integer
Field Target = Solver
Subpanel 3
End Panel
!-------------------------------------------------------------------------
Panel "Material"
Field "Potential Difference"
Field "Potential Difference B"
! Activity Parent = "Potential Difference"
! Activity Values {"~"}
Field "Permittivity"
Label "Relative Permittivity"
Initial Value 1.0
Field "Reference Aperture"
Field "Layer Thickness"
Field "Layer Permittivity"
Label "Layer Relative Permittivity"
! Activity Parent "Layer Thickness"
! Activity Values {"~"}
Field "Hole Type"
Type String
Widget "Selection List"
Values {"Round" "Slot" "Square"}
Initial Value "Round"
Activity Parent = {"Equation" "Hole Correction REl"}
Subpanel 2
Field "Hole Size"
Activity Parent = {"Equation" "Hole Correction REl"}
Subpanel 2
Field "Hole Fraction"
Activity Parent = {"Equation" "Hole Correction REl"}
Subpanel 2
End Panel
!-------------------------------------------------------------------------
Panel "Boundary conditions"
Field "Open Side REl"
Label = "Open Side"
Sif Name "Open Side"
Type Logical
Initial Value False
Activity Parent {"Equation" "Side Correction REl"}
Subpanel 2
Field "Symmetric Side"
Type Logical
Initial Value False
Activity Parent {"Equation" "Side Correction REl"}
Subpanel 2
Field "Effective Width"
Activity Parent {"Equation" "Side Correction REl"}
Subpanel 3
Field "Thickness"
Activity Parent {"Equation" "Side Correction REl"}
Subpanel 3
End Panel
!-------------------------------------------------------------------------
End Equation
!=========================================================================
Equation "Harmonic Reynolds Equation"
!-------------------------------------------------------------------------
Status Line Name "ReynoldsH"
Process Table Name "HRE"
Solver Procedure "MEMReynolds" "HarmonicReynoldsSolver"
Variable "Pressure"
Variable DOFs 2
!-------------------------------------------------------------------------
Panel "Simulation parameters"
Field "Aplac Export"
Type Logical
Initial Value False
Field "MEM Eigen Modes"
Type Integer
Initial Value = 1
End Panel
!-------------------------------------------------------------------------
Panel "Solver"
Include "SolverGeneric1Fields.edf"
Include "SolverLinearFields.edf"
Include "SolverNonlinearFields.edf"
End Panel
!-------------------------------------------------------------------------
Panel "Equation"
Field "Frequency HRe"
Label = "Frequency"
Sif Name "Frequency"
Field Target = Solver
Label Width 12
Widget Width 8
Field "Rarefaction HRe"
Label = "Rarefaction"
Sif Name "Rarefaction"
Type Logical
Initial Value False
Field Target = Solver
Field "Hole Correction HRe"
Label = "Hole Correction"
Sif Name "Hole Correction"
Type Logical
Initial Value False
Field Target = Solver
Field "Side Correction HRe"
Label = "Side Correction"
Sif Name "Side Correction"
Type Logical
Initial Value False
Field Target = Solver
Field "Calculate Damping HRe"
Label = "Calculate Damping"
Sif Name "Calculate Damping"
Type Logical
Initial Value False
Field Target = Solver
Field "Adiabatic HRe"
Label = "Adiabatic"
Sif Name = "Adiabatic"
Type Logical
Initial Value False
Field Target = Solver
Field "Perturbation Analysis Type HRe"
Label = "Perturbation Type"
Sif Name "Perturbation Analysis Type"
Type String
Widget "Selection List"
Values {"none" "Frequency Perturbation" "Displacement Perturbation" "Pressure Perturbation" "Distance Perturbation"}
Initial Value "none"
Field Target = Solver
Field "Frequency Perturbation fld"
Sif Name "Frequency Perturbation"
Type Logical
Initial Value = True
Activity Parent = "Perturbation Analysis Type HRe"
Activity Values = {"Frequency Perturbation"}
Display "False"
Field Target = Solver
Field "Displacement Perturbation fld"
Sif Name "Displacement Perturbation"
Type Logical
Initial Value = True
Activity Parent = "Perturbation Analysis Type HRe"
Activity Values = {"Displacement Perturbation"}
Display "False"
Field Target = Solver
Field "Pressure Perturbation fld"
Sif Name "Pressure Perturbation"
Type Logical
Initial Value = True
Activity Parent = "Perturbation Analysis Type HRe"
Activity Values = {"Pressure Perturbation"}
Display "False"
Field Target = Solver
Field "Distance Perturbation fld"
Sif Name "Distance Perturbation"
Type Logical
Initial Value = True
Activity Parent = "Perturbation Analysis Type HRe"
Activity Values = {"Distance Perturbation"}
Display "False"
Field Target = Solver
Field "Scan Frequency"
Type Logical
Initial Value False
Field Target = Solver
Subpanel 3
Field "Scan Points HRe"
Label = "Nbr of Scan Points"
Sif Name "Scan Points"
Type Integer
Activity Parent = "Scan Frequency"
Field Target = Solver
Subpanel 3
Widget Width 10
Field "Scan Range Min HRe"
Label = "Scan Range Min"
Sif Name "Scan Range Min"
Activity Parent = "Scan Frequency"
Field Target = Solver
Subpanel 3
Widget Width 10
Field "Scan Range Max HRe"
Label = "Scan Range Max"
Sif Name "Scan Range Max"
Activity Parent = "Scan Frequency"
Field Target = Solver
Subpanel 3
Widget Width 10
Field "Filename HRe"
Label "Scan Freq. Filename"
Sif Name "Filename"
Type File
Activity Parent = "Scan Frequency"
Field Target = Solver
Subpanel 3
Widget Width 10
End Panel
!-------------------------------------------------------------------------
Panel "Material"
Field "Viscosity"
Field "Gas Density"
Activity Parent = {"Equation" "Hole Correction HRe"}
Activity Parent = {"Equation" "Rarefaction HRe"}
Field "Reference Aperture"
Field "Reference Pressure HRe"
Label "Reference Pressure"
Sif Name = "Reference Pressure"
Field "Connected Aperture HRe"
Label "Connected Aperture"
Sif Name = "Connected Aperture"
Field "Connected Aperture Fixed HRe"
Label "Connected Aperture Fixed"
Sif Name = "Connected Aperture Fixed"
Type Logical
Initial Value = False
Field "Specific Heat Ratio HRe"
Label "Specific Heat Ratio"
Sif Name = "Specific Heat Ratio"
Activity Parent = {"Equation" "Adiabatic HRe"}
Field "Reference Temperature HRe"
Label = "Reference Temperature"
Sif Name "Reference Temperature"
Activity Parent = {"Equation" "Adiabatic HRe"}
Field "Hole Type"
Type String
Widget "Selection List"
Values {"Round" "Slot" "Square"}
Initial Value "Round"
Activity Parent = {"Equation" "Hole Correction HRe"}
Field "Hole Size"
Activity Parent = {"Equation" "Hole Correction HRe"}
Field "Hole Fraction"
Activity Parent = {"Equation" "Hole Correction HRe"}
Field "Hole Depth"
Activity Parent = {"Equation" "Hole Correction HRe"}
Field "Compressibility Model Hre"
Label = "Compressibility Model"
Sif Name "Compressibility Model"
Type String
Widget "Selection List"
Values {"Compressible" "Incompressible"}
Initial Value "Compressible"
Subpanel 2
Field "Re Acoustic Impedance Correction"
Activity Parent = {"Equation" "Hole Correction HRe"}
Subpanel 2
Field "Im Acoustic Impedance Correction"
Activity Parent = {"Equation" "Hole Correction HRe"}
Subpanel 2
Field "Re Specific Acoustic Impedance"
Activity Parent = {"Equation" "Hole Correction HRe"}
Activity Values = "False"
Subpanel 2
Field "Im Specific Acoustic Impedance"
Activity Parent = {"Equation" "Hole Correction HRe"}
Activity Values = "False"
Subpanel 2
Field "Specific Fluidic Damping"
Activity Parent = {"Equation" "Hole Correction HRe"}
Activity Values = "False"
Subpanel 2
Field "Specific Fluidic Spring"
Activity Parent = {"Equation" "Hole Correction HRe"}
Activity Values = "False"
Subpanel 2
End Panel
!-------------------------------------------------------------------------
Panel "Boundary conditions"
Field "Open Side HRe"
Label = "Open Side"
Sif Name "Open Side"
Type Logical
Initial Value False
Activity Parent {"Equation" "Side Correction HRe"}
Subpanel 2
End Panel
!-------------------------------------------------------------------------
End Equation
!=========================================================================
Equation "Transient Reynolds Equation"
!-------------------------------------------------------------------------
Status Line Name "ReynoldsT"
Process Table Name "TRE"
Solver Procedure "MEMReynolds" "TransientReynoldsSolver"
Variable "Pressure"
Variable DOFs 1
!-------------------------------------------------------------------------
Panel "Simulation Parameters"
Field "MEM Eigen Modes"
Type Integer
Initial Value = 1
End Panel
!-------------------------------------------------------------------------
Panel "Solver"
Include "SolverGeneric1Fields.edf"
Include "SolverLinearFields.edf"
Include "SolverNonlinearFields.edf"
End Panel
!-------------------------------------------------------------------------
Panel "Equation"
Field "Rarefaction TRe"
Label = "Rarefaction"
Sif Name "Rarefaction"
Type Logical
Initial Value False
Field Target = Solver
Field "Hole Correction TRe"
Label = "Hole Correction"
Sif Name "Hole Correction"
Type Logical
Initial Value False
Field Target = Solver
Field "Frequency TRe"
Label = "Frequency"
Sif Name = "Frequency"
Activity Parent = "Hole Correction TRe"
Field Target = Solver
Label Width 12
Widget Width 8
Field "Side Correction TRe"
Label = "Side Correction"
Sif Name "Side Correction"
Type Logical
Initial Value False
Field Target = Solver
Field "Calculate Damping TRe"
Label = "Calculate Damping"
Sif Name "Calculate Damping"
Type Logical
Initial Value False
Field Target = Solver
Field "Damping Limit Iterations"
Type Integer
Initial Value = 0
Activity Parent = "Calculate Damping TRe"
Field Target = Solver
Field "Damping Limit Relaxation"
Initial Value = 1.0
Activity Parent = "Calculate Damping TRe"
Field Target = Solver
Field "Adiabatic TRe"
Label = "Adiabatic"
Sif Name "Adiabatic"
Type Logical
Initial Value False
Field Target = Solver
End Panel
!-------------------------------------------------------------------------
Panel "Material"
Field "Viscosity"
Field "Gas Density"
Activity Parent = {"Equation" "Rarefaction TRe"}
Activity Parent = {"Equation" "Hole Correction TRe"}
Field "Reference Aperture"
Field "Reference Pressure TRe"
Label "Reference Pressure"
Sif Name "Reference Pressure"
Field "Specific Heat Ratio TRe"
Label = "Specific Heat Ratio"
Sif Name "Specific Heat Ratio"
Activity Parent = {"Equation" "Adiabatic TRe"}
Field "Reference Temperature TRe"
Label = "Reference Temperature"
Sif Name "Reference Temperature"
Activity Parent = {"Equation" "Adiabatic TRe"}
Field "Hole Type"
Type String
Widget "Selection List"
Values {"Round" "Slot" "Square"}
Initial Value "Round"
Activity Parent = {"Equation" "Hole Correction TRe"}
Field "Hole Size"
Activity Parent = {"Equation" "Hole Correction TRe"}
Field "Hole Fraction"
Activity Parent = {"Equation" "Hole Correction TRe"}
Field "Hole Depth"
Activity Parent = {"Equation" "Hole Correction TRe"}
Field "Compressibility Model Tre"
Label = "Compressibility Model"
Sif Name "Compressibility Model"
Type String
Widget "Selection List"
Values {"Compressible" "Incompressible"}
Initial Value "Compressible"
Subpanel 2
Field "Re Acoustic Impedance Correction"
Activity Parent = {"Equation" "Hole Correction TRe"}
Subpanel 2
Field "Im Acoustic Impedance Correction"
Activity Parent = {"Equation" "Hole Correction TRe"}
Subpanel 2
Field "Re Specific Acoustic Impedance"
Activity Parent = {"Equation" "Hole Correction TRe"}
Activity Values = "False"
Subpanel 2
Field "Im Specific Acoustic Impedance"
Activity Parent = {"Equation" "Hole Correction TRe"}
Activity Values = "False"
Subpanel 2
Field "Specific Fluidic Damping"
Activity Parent = {"Equation" "Hole Correction TRe"}
Activity Values = "False"
Subpanel 2
Field "Specific Fluidic Spring"
Activity Parent = {"Equation" "Hole Correction TRe"}
Activity Values = "False"
Subpanel 2
End Panel
!-------------------------------------------------------------------------
Panel "Boundary conditions"
Field "Open Side TRe"
Label = "Open Side"
Sif Name "Open Side"
Type Logical
Initial Value False
Activity Parent {"Equation" "Side Correction TRe"}
Subpanel 2
End Panel
!-------------------------------------------------------------------------
End Equation
!=========================================================================
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