Check Keywords "Warn" Header Mesh DB "." "pwire" End Simulation Max Output Level = 5 Coordinate System = "Cartesian" Coordinate Scaling(3) = Real 1e-06 1e-06 1e-06 Simulation Type = Steady Timestepping Method = BDF Timestep Sizes = 1 Timestep Intervals = 10 Steady State Max Iterations = 1 Post File = MGDynamics.ep Output Intervals(1) = 1 End Constants Gravity(4) = 0 0 -1 9.81 ! N | m s^-2 Stefan Boltzmann = 5.67e-08 ! W m^-2 °K^-4 | kg s^-3 °K^-4 Permittivity of Vacuum = 8.8542e-12 ! F m^-1 | A^2 s^4 kg^-1 m^-3 Permeability of Vacuum = 1.2566e-6 ! H m^-1 | kg m s^-2 A^-2 Boltzmann Constant = 1.3807e-23 ! J °K^-1 | m^2 kg s^-2 °K^-1 Unit Charge = 1.602e-19 ! C | A s End Body 1 Equation = 1 Material = 1 Target Bodies(1)=7 ! Body Force = 1 Initial Condition = 1 End Initial Condition 1 ! P = Variable coordinate ! Real MATC "rand(1)" End Material 1 Reluctivity = Real 1 Electric Conductivity = Real 1 End Equation 1 Active Solvers(2) = 1 2 End Solver 1 Equation = "MGDynamics" Variable = "P" Procedure = "MagnetoDynamics" "WhitneyAVSolver" Linear System Symmetric = True Linear System Solver = "Direct" Linear System Direct Method = Umfpack ! Linear System Scaling=False Linear System Solver = "Iterative" Linear System Preconditioning = Ilu Linear System Residual Output = 10 Linear System Max Iterations = 5000 Linear System Iterative Method = Bicgstab Linear System Convergence Tolerance = 1.0e-9 ! USE Tree Gauge = Logical TRUE ! Before Linsolve = "EliminateDirichlet" "EliminateDirichlet" Fix Input Current Density = Logical True Steady State Convergence Tolerance = 1e-09 End Solver 2 Equation = "MGDynamicsCalc" Procedure = "MagnetoDynamics" "MagnetoDynamicsCalcFields" Linear System Symmetric = True Potential Variable = String "P" ! Calculate Current Density = Logical True Calculate Electric Field = Logical True Calculate Magnetic Field Strength = Logical True ! Calculate Joule Heating = True Steady State Convergence Tolerance = 0 Linear System Solver = "Iterative" Linear System Preconditioning = None Linear System Residual Output = 0 Linear System Max Iterations = 5000 Linear System Iterative Method = CG Linear System Convergence Tolerance = 1.0e-9 Calculate Nodal Fields = Logical False Impose Body Force Porential = Logical True Impose Body Force Current = Logical True Discontinuous Bodies = True End Solver 3 Equation = "scalars" procedure = "SaveData" "SaveScalars" show norm index = 2 End Body Force 1 Name = "Current"0 ! Current Density 1 = Real 4e-9 ! Current Density 1 = Real -3 ! Current Density 2 = Real -1 ! Current Density 3 = Real 0 Electric Potential = Variable Coordinate Real MATC "(3*tx(0)tx(1))/3" ! Magnetization 1 = Real 0 ! Magnetization 2 = Real 0 Magnetization 3 = Variable Coordinate Real MATC "(tx(0)-3*tx(1))/3" End Boundary Condition 1 Target Boundaries(3) = 5 3 4 !2 3 4(original) 534(custom) P {e} = Real 0 P {e} 1 = Variable coordinate Real MATC "x=tx(0);y=tx(1); 3*y^2/2" P {e} 2 = Variable coordinate Real MATC "x=tx(0);y=tx(1); x^2/2" P {e} 3 = Real 0 Electric Current Density = Real 4e-9 Magnetic Flux Average = Logical True End Boundary Condition 2 Target Boundaries(2) = 6 2 !1 5 62 Magnetic Flux Density 3 = Variable coordinate Real MATC "x=tx(0);y=tx(1); x-3*y" Electric Current Density = Real 4e-9 Magnetic Flux Average = Logical True End Boundary Condition 3 Target Boundaries(1) = 1 !6 1 P {e} = Real 0 P {e} 1 = Variable coordinate Real MATC "x=tx(0);y=tx(1); 3*y^2/2" P {e} 2 = Variable coordinate Real MATC "x=tx(0);y=tx(1); x^2/2" P {e} 3 = Real 0 Electric Current Density = Real 4e-9 Magnetic Flux Average = Logical True End !Solver 2 :: Reference Norm = Real 1.41535 !Solver 2 :: Reference Norm Tolerance = Real 1.0E-4 !Solver 3 :: Reference Norm = Real 9.162083E-01 RUN