ElmerGrid 1 2 ice.grd Starting program Elmergrid Elmergrid reading in-line arguments Output will be saved to file ice. Elmergrid loading data: ----------------------- Loading the geometry from file 'ice.grd'. Loading ElmerGrid file version: 210903 Defining the coordinate system (2-DIM). Loading 2 subcell limits in X-direction Loading 2 subcell limits in Y-direction Loading material structure End of field Loading boundary conditions Found 4 boundaries Loaded 1 geometry mappings Reached the end of command file Found 1 divisions for grid Loading ElmerGrid commands from file 'ice.grd'. Reached the end of command file Read commands from a file Elmergrid creating and manipulating meshes: ------------------------------------------- 1 cells were created. Numbered 2121 knots in 2000 4-node elements. Numbering order was and max levelwidth 103. 100 element sides between materials -1 and 1 were located to type 1. 20 element sides between materials -2 and 1 were located to type 2. 100 element sides between materials -3 and 1 were located to type 3. 20 element sides between materials -4 and 1 were located to type 4. Dimension 3 not active but higher dimensions are? Coordinates defined in 2 dimensions Elmergrid saving data with method 2: ------------------------------------- Saving mesh in ElmerSolver format to directory ice. Saving 2121 coordinates to mesh.nodes. Saving 2000 element topologies to mesh.elements. Saving boundary elements to mesh.boundary. Saving header info to mesh.header. Thank you for using Elmergrid! Send bug reports and feature wishes to elmeradm@csc.fi ElmerSolver cavity.sif ELMER SOLVER (v 7.0) STARTED AT: 2014/09/05 11:07:59 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Library version: 7.0 (Rev: 6804) MAIN: Trilinos library linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: cavity.sif Header Mesh DB "." "ice" End Constants Water Density = Real 1.00413490931e-18 Real 1.00413490931e-18 End Simulation Coordinate System = Cartesian 2D Cartesian 2D Simulation Type = transient transient Timestepping Method = "bdf" "bdf" BDF Order = 1 1 Timestep Intervals = 20 20 Output Intervals = 1 1 Timestep Sizes = 1 1 Steady State Max Iterations = 1 1 Steady State Min Iterations = 1 1 Initialize Dirichlet Conditions = Logical False Logical False Post File = "cavity.vtu "cavity.vtu max output level = 3 3 End Body 1 Name = "ice" "ice" Equation = 1 1 Body Force = 1 1 Material = 1 1 Initial Condition = 1 1 End Body 2 Name= "cavity free surface" "cavity free surface" Equation = 2 2 Material = 1 1 Body Force = 2 2 Initial Condition = 2 2 End Initial Condition 1 Pressure = Real 0.0 Real 0.0 Velocity 1 = Real 0.0 Real 0.0 Velocity 2 = Real 0.0 Real 0.0 Mesh Update 1 = Real 0.0 Real 0.0 Mesh Update 2 = real 0.0 real 0.0 End Initial Condition 2 Zs Bottom = Variable Coordinate 1 Variable Coordinate 1 Real Procedure "ElmerIceUSF" "ZsBottomIni" bedrock = Variable Coordinate 1 Variable Coordinate 1 Real 0.0 0.0 2.0 0.1 4.0 -0.3 10.0 0.0 End End Body Force 1 Flow BodyForce 1 = Real 0.0 Real 0.0 Flow BodyForce 2 = Real 0.0 Real 0.0 Flow Solver Name = String Flow Solution String Flow Solution Mesh Update 1 = real 0.0 real 0.0 End Body Force 2 Zs Bottom Accumulation = Real 0.0 Real 0.0 End Material 1 Density = Real 9.03721418379e-19 Real 9.03721418379e-19 Viscosity Model = String "glen" String "glen" Viscosity = 1.0 1.0 Glen Exponent = Real 3.0 Real 3.0 Limit Temperature = Real -10.0 Real -10.0 Rate Factor 1 = Real 9.125353404e+12 Real 9.125353404e+12 Rate Factor 2 = Real 7.6601655936e+23 Real 7.6601655936e+23 Activation Energy 1 = Real 60e3 Real 60e3 Activation Energy 2 = Real 115e3 Real 115e3 Glen Enhancement Factor = Real 1.0 Real 1.0 Critical Shear Rate = Real 1.0e-15 Real 1.0e-15 Constant Temperature = Real -1.0 Real -1.0 Min Zs Bottom = Equals Bedrock Equals Bedrock Max Zs Bottom = Real 1.0e6 Real 1.0e6 GL_toler = Real 0.0001 Real 0.0001 Mesh Youngs Modulus = Real 1.0 Real 1.0 Mesh Poisson Ratio = real 0.3 real 0.3 Cauchy = Logical True Logical True End Solver 1 Exec Solver = Before All Before All Procedure = "ElmerIceSolvers" "GroundedSolverInit" "ElmerIceSolvers" "GroundedSolverInit" Equation = "GroundedMaskInit" "GroundedMaskInit" Variable = "GroundedMask" "GroundedMask" Variable DOFs = 1 1 TolerInit = Real 0.0001 Real 0.0001 End Solver2 Equation = "Mesh Update" "Mesh Update" Variable = "Mesh Update" "Mesh Update" Variable DOFs = 2 2 Linear System Solver = "Direct" "Direct" Linear System Direct Method = umfpack umfpack Steady State Convergence Tolerance = 1.0e-04 1.0e-04 End Solver 3 Equation = "GroundedMask" "GroundedMask" Procedure = "ElmerIceSolvers" "GroundedSolver" "ElmerIceSolvers" "GroundedSolver" Variable = "GroundedMask" "GroundedMask" Variable DOFs = 1 1 Toler = Real 0.0001 Real 0.0001 SaveGL = Logical True Logical True Save File Name = String "CavityLinecavity.dat String "CavityLinecavity.dat End Solver 4 Equation = "NormalVector" "NormalVector" Procedure = "ElmerIceSolvers" "ComputeNormalSolver" "ElmerIceSolvers" "ComputeNormalSolver" Variable = String "Normal Vector" String "Normal Vector" Variable DOFs = 2 2 Exported Variable 1 = BodyMask BodyMask Exported Variable 1 DOFs = 1 1 ComputeAll = Logical False Logical False Optimize Bandwidth = Logical False Logical False End Solver 5 Equation = Fw Fw Procedure = "ElmerIceSolvers" "GetHydrostaticLoads" "ElmerIceSolvers" "GetHydrostaticLoads" Variable = Fw[Fwater:2] Fw[Fwater:2] Variable DOFs = 2 2 End Solver 6 Equation = "Navier-Stokes" "Navier-Stokes" Linear System Solver = Direct Direct Linear System Direct Method = umfpack umfpack Nonlinear System Max Iterations = 50 50 Nonlinear System Convergence Tolerance = 1.0e-6 1.0e-6 Nonlinear System Newton After Iterations = 51 51 Nonlinear System Newton After Tolerance = 1.0e-07 1.0e-07 Nonlinear System Relaxation Factor = 1.00 1.00 Steady State Convergence Tolerance = Real 1.0e-4 Real 1.0e-4 Stabilization Method = String Bubbles String Bubbles Exported Variable 1 = Flow Solution Loads[Stress Vector:2 CEQ Residual:1] Flow Solution Loads[Stress Vector:2 CEQ Residual:1] Calculate Loads = Logical True Logical True Flow Model = String 'Stokes' String 'Stokes' End Solver 7 Equation = Sij Sij Variable = -nooutput "Sij" -nooutput "Sij" Variable DOFs = 1 1 Exported Variable 1 = ViscousStress ViscousStress Exported Variable 1 DOFs = 4 4 Procedure = "ElmerIceSolvers" "ComputeDevStress" "ElmerIceSolvers" "ComputeDevStress" Flow Solver Name = String "Flow Solution" String "Flow Solution" Stress Variable Name = String "ViscousStress" String "ViscousStress" Linear System Solver = Direct Direct Linear System Direct Method = umfpack umfpack End Solver 8 Equation = "Free Surface cavity" "Free Surface cavity" Variable = "Zs Bottom" "Zs Bottom" Variable DOFS = 1 1 Exported Variable 1 = "Zs Bottom Residual" "Zs Bottom Residual" Exported Variable 1 DOFs = 1 1 Exported Variable 2 = "bedrock" "bedrock" Exported Variable 2 DOFs = 1 1 Procedure = "FreeSurfaceSolver" "FreeSurfaceSolver" "FreeSurfaceSolver" "FreeSurfaceSolver" Before Linsolve = "EliminateDirichlet" "EliminateDirichlet" "EliminateDirichlet" "EliminateDirichlet" Linear System Solver = Iterative Iterative Linear System Max Iterations = 100 100 Linear System Iterative Method = BiCGStab BiCGStab Linear System Preconditioning = ILU0 ILU0 Linear System Convergence Tolerance = Real 1.0e-9 Real 1.0e-9 Linear System Abort Not Converged = False False Linear System Residual Output = 1 1 Nonlinear System Max Iterations = 100 100 Nonlinear System Convergence Tolerance = 1.0e-6 1.0e-6 Nonlinear System Relaxation Factor = 1.00 1.00 Steady State Convergence Tolerance = 1.0e-03 1.0e-03 Stabilization Method = Stabilized Stabilized Apply Dirichlet = Logical True Logical True Use Accumulation = Logical True Logical True Normal Flux = Logical False Logical False End Solver 9 Exec Solver = After TimeStep After TimeStep Equation = SaveScalars SaveScalars Procedure = File "SaveData" "SaveScalars" File "SaveData" "SaveScalars" Filename = "results.dat" "results.dat" File Append = Logical True Logical True Variable 1 = String "Time" String "Time" Variable 2 = String "ViscousStress" String "ViscousStress" Operator 2 = String "int" String "int" Variable 3 = String "ViscousStress" String "ViscousStress" Operator 3 = String "max" String "max" Variable 4 = String "ViscousStress" String "ViscousStress" Operator 4 = String "min" String "min" Operator 5 = String "cpu time" String "cpu time" End Equation 1 Active Solvers (5) = 2 4 6 7 9 Size 5 = 2 4 6 7 9 2 4 6 7 9 End Equation 2 Active Solvers(4) = 1 3 5 8 Size 4 = 1 3 5 8 1 3 5 8 Flow Solution Name = String "Flow Solution" String "Flow Solution" Convection = String Computed String Computed End Boundary Condition 1 Name = "cavity" "cavity" Target Boundaries = 1 1 Body Id = 2 2 Normal-Tangential Velocity = Logical True Logical True Flow Force BC = Logical True Logical True Zs Bottom = Equals bedrock Equals bedrock Zs Bottom Condition = Variable Coordinate 1 Variable Coordinate 1 Real MATC "2.0 - tx" Slip Coefficient 2 = Variable Coordinate 1 Variable Coordinate 1 Real Procedure "ElmerIceUSF" "SlidCoef_Contact" Sliding Law = String weertman String weertman Weertman Friction Coefficient = Real 0.0 Real 0.0 Weertman Exponent = Real 1.0 Real 1.0 Weertman Linear Velocity = Real 1.0 Real 1.0 Velocity 1 = Real 0.0 Real 0.0 Velocity 1 Condition = Variable GroundedMask Variable GroundedMask Real MATC "tx + 0.5" External Pressure = Real -1 Real -1 ComputeNormal = Logical True Logical True ComputeNormal Condition = Variable GroundedMask Variable GroundedMask Real MATC "tx + 0.5" Mesh Update 1 = Real 0.0e0 Real 0.0e0 Mesh Update 2 = Variable Zs Bottom Variable Zs Bottom Real Procedure "ElmerIceUSF" "ZsBottomMzsIni" Save Line = Logical True Logical True End Boundary Condition 2 Name = "ice right" "ice right" Target Boundaries = 2 2 Periodic BC = 4 4 Periodic BC Translate(2) = Real 10.0 0.0 Size 2 = Real 10.0 0.0 Real 10.0 0.0 Periodic BC Velocity 1 = Logical True Logical True Periodic BC Velocity 2 = Logical True Logical True Periodic BC Pressure = Logical True Logical True Periodic BC Zs Bottom = Logical True Logical True Periodic BC Mesh Update 2 = Logical True Logical True End Boundary Condition 3 Name = "ice top" "ice top" Target Boundaries = 3 3 Velocity 1 = Real 10 Real 10 Flow Force BC = Logical True Logical True External Pressure = Real -1.2 Real -1.2 Mesh Update 1 = real 0.0 real 0.0 Mesh Update 2 = real 0.0 real 0.0 End Boundary Condition 4 Name = "ice left" "ice left" Target Boundaries = 4 4 End check keywords warn echo on Header Mesh DB "." "ice" End Constants Water Density = Real 1.00413490931e-18 Real 1.00413490931e-18 Model Input: Unlisted keyword: [water density] in section: [constants] End Simulation Coordinate System = Cartesian 2D Cartesian 2D Simulation Type = transient transient Timestepping Method = "bdf" "bdf" BDF Order = 1 1 Timestep Intervals = 20 20 Output Intervals = 1 1 Timestep Sizes = 1 1 Steady State Max Iterations = 1 1 Steady State Min Iterations = 1 1 Initialize Dirichlet Conditions = Logical False Logical False Post File = "cavity.vtu "cavity.vtu max output level = 3 3 End Body 1 Name = "ice" "ice" Equation = 1 1 Body Force = 1 1 Material = 1 1 Initial Condition = 1 1 End Body 2 Name= "cavity free surface" "cavity free surface" Equation = 2 2 Material = 1 1 Body Force = 2 2 Initial Condition = 2 2 End Initial Condition 1 Pressure = Real 0.0 Real 0.0 Velocity 1 = Real 0.0 Real 0.0 Velocity 2 = Real 0.0 Real 0.0 Mesh Update 1 = Real 0.0 Real 0.0 Mesh Update 2 = real 0.0 real 0.0 End Initial Condition 2 Zs Bottom = Variable Coordinate 1 Variable Coordinate 1 Real Procedure "ElmerIceUSF" "ZsBottomIni" Model Input: Unlisted keyword: [zs bottom] in section: [initial condition 2] Loading user function library: [ElmerIceUSF]...[ZsBottomIni] bedrock = Variable Coordinate 1 Variable Coordinate 1 Real Model Input: Unlisted keyword: [bedrock] in section: [initial condition 2] 0.0 0.0 2.0 0.1 4.0 -0.3 10.0 0.0 End End Body Force 1 Flow BodyForce 1 = Real 0.0 Real 0.0 Flow BodyForce 2 = Real 0.0 Real 0.0 Flow Solver Name = String Flow Solution String Flow Solution Model Input: Unlisted keyword: [flow solver name] in section: [body force 1] Mesh Update 1 = real 0.0 real 0.0 Model Input: Unlisted keyword: [mesh update 1] in section: [body force 1] End Body Force 2 Zs Bottom Accumulation = Real 0.0 Real 0.0 Model Input: Unlisted keyword: [zs bottom accumulation] in section: [body force 2] End Material 1 Density = Real 9.03721418379e-19 Real 9.03721418379e-19 Viscosity Model = String "glen" String "glen" Viscosity = 1.0 1.0 Glen Exponent = Real 3.0 Real 3.0 Limit Temperature = Real -10.0 Real -10.0 Model Input: Unlisted keyword: [limit temperature] in section: [material 1] Rate Factor 1 = Real 9.125353404e+12 Real 9.125353404e+12 Model Input: Unlisted keyword: [rate factor 1] in section: [material 1] Rate Factor 2 = Real 7.6601655936e+23 Real 7.6601655936e+23 Model Input: Unlisted keyword: [rate factor 2] in section: [material 1] Activation Energy 1 = Real 60e3 Real 60e3 Model Input: Unlisted keyword: [activation energy 1] in section: [material 1] Activation Energy 2 = Real 115e3 Real 115e3 Model Input: Unlisted keyword: [activation energy 2] in section: [material 1] Glen Enhancement Factor = Real 1.0 Real 1.0 Critical Shear Rate = Real 1.0e-15 Real 1.0e-15 Constant Temperature = Real -1.0 Real -1.0 Model Input: Unlisted keyword: [constant temperature] in section: [material 1] Min Zs Bottom = Equals Bedrock Equals Bedrock Max Zs Bottom = Real 1.0e6 Real 1.0e6 Model Input: Unlisted keyword: [max zs bottom] in section: [material 1] GL_toler = Real 0.0001 Real 0.0001 Model Input: Unlisted keyword: [gl_toler] in section: [material 1] Mesh Youngs Modulus = Real 1.0 Real 1.0 Model Input: Unlisted keyword: [mesh youngs modulus] in section: [material 1] Mesh Poisson Ratio = real 0.3 real 0.3 Cauchy = Logical True Logical True Model Input: Unlisted keyword: [cauchy] in section: [material 1] End Solver 1 Exec Solver = Before All Before All Procedure = "ElmerIceSolvers" "GroundedSolverInit" "ElmerIceSolvers" "GroundedSolverInit" Equation = "GroundedMaskInit" "GroundedMaskInit" Variable = "GroundedMask" "GroundedMask" Variable DOFs = 1 1 TolerInit = Real 0.0001 Real 0.0001 Model Input: Unlisted keyword: [tolerinit] in section: [solver 1] End Solver2 Equation = "Mesh Update" "Mesh Update" Variable = "Mesh Update" "Mesh Update" Variable DOFs = 2 2 Linear System Solver = "Direct" "Direct" Linear System Direct Method = umfpack umfpack Steady State Convergence Tolerance = 1.0e-04 1.0e-04 End Solver 3 Equation = "GroundedMask" "GroundedMask" Procedure = "ElmerIceSolvers" "GroundedSolver" "ElmerIceSolvers" "GroundedSolver" Variable = "GroundedMask" "GroundedMask" Variable DOFs = 1 1 Toler = Real 0.0001 Real 0.0001 Model Input: Unlisted keyword: [toler] in section: [solver 3] SaveGL = Logical True Logical True Model Input: Unlisted keyword: [savegl] in section: [solver 3] Save File Name = String "CavityLinecavity.dat String "CavityLinecavity.dat Model Input: Unlisted keyword: [save file name] in section: [solver 3] End Solver 4 Equation = "NormalVector" "NormalVector" Procedure = "ElmerIceSolvers" "ComputeNormalSolver" "ElmerIceSolvers" "ComputeNormalSolver" Variable = String "Normal Vector" String "Normal Vector" Variable DOFs = 2 2 Exported Variable 1 = BodyMask BodyMask Exported Variable 1 DOFs = 1 1 ComputeAll = Logical False Logical False Model Input: Unlisted keyword: [computeall] in section: [solver 4] Optimize Bandwidth = Logical False Logical False End Solver 5 Equation = Fw Fw Procedure = "ElmerIceSolvers" "GetHydrostaticLoads" "ElmerIceSolvers" "GetHydrostaticLoads" Variable = Fw[Fwater:2] Fw[Fwater:2] Variable DOFs = 2 2 End Solver 6 Equation = "Navier-Stokes" "Navier-Stokes" Linear System Solver = Direct Direct Linear System Direct Method = umfpack umfpack Nonlinear System Max Iterations = 50 50 Nonlinear System Convergence Tolerance = 1.0e-6 1.0e-6 Nonlinear System Newton After Iterations = 51 51 Nonlinear System Newton After Tolerance = 1.0e-07 1.0e-07 Nonlinear System Relaxation Factor = 1.00 1.00 Steady State Convergence Tolerance = Real 1.0e-4 Real 1.0e-4 Stabilization Method = String Bubbles String Bubbles Exported Variable 1 = Flow Solution Loads[Stress Vector:2 CEQ Residual:1] Flow Solution Loads[Stress Vector:2 CEQ Residual:1] Calculate Loads = Logical True Logical True Flow Model = String 'Stokes' String 'Stokes' End Solver 7 Equation = Sij Sij Variable = -nooutput "Sij" -nooutput "Sij" Variable DOFs = 1 1 Exported Variable 1 = ViscousStress ViscousStress Exported Variable 1 DOFs = 4 4 Procedure = "ElmerIceSolvers" "ComputeDevStress" "ElmerIceSolvers" "ComputeDevStress" Flow Solver Name = String "Flow Solution" String "Flow Solution" Model Input: Unlisted keyword: [flow solver name] in section: [solver 7] Stress Variable Name = String "ViscousStress" String "ViscousStress" Model Input: Unlisted keyword: [stress variable name] in section: [solver 7] Linear System Solver = Direct Direct Linear System Direct Method = umfpack umfpack End Solver 8 Equation = "Free Surface cavity" "Free Surface cavity" Variable = "Zs Bottom" "Zs Bottom" Variable DOFS = 1 1 Exported Variable 1 = "Zs Bottom Residual" "Zs Bottom Residual" Exported Variable 1 DOFs = 1 1 Exported Variable 2 = "bedrock" "bedrock" Exported Variable 2 DOFs = 1 1 Procedure = "FreeSurfaceSolver" "FreeSurfaceSolver" "FreeSurfaceSolver" "FreeSurfaceSolver" Before Linsolve = "EliminateDirichlet" "EliminateDirichlet" "EliminateDirichlet" "EliminateDirichlet" Linear System Solver = Iterative Iterative Linear System Max Iterations = 100 100 Linear System Iterative Method = BiCGStab BiCGStab Linear System Preconditioning = ILU0 ILU0 Linear System Convergence Tolerance = Real 1.0e-9 Real 1.0e-9 Linear System Abort Not Converged = False False Linear System Residual Output = 1 1 Nonlinear System Max Iterations = 100 100 Nonlinear System Convergence Tolerance = 1.0e-6 1.0e-6 Nonlinear System Relaxation Factor = 1.00 1.00 Steady State Convergence Tolerance = 1.0e-03 1.0e-03 Stabilization Method = Stabilized Stabilized Apply Dirichlet = Logical True Logical True Use Accumulation = Logical True Logical True Normal Flux = Logical False Logical False End Solver 9 Exec Solver = After TimeStep After TimeStep Equation = SaveScalars SaveScalars Procedure = File "SaveData" "SaveScalars" File "SaveData" "SaveScalars" Filename = "results.dat" "results.dat" File Append = Logical True Logical True Variable 1 = String "Time" String "Time" Variable 2 = String "ViscousStress" String "ViscousStress" Operator 2 = String "int" String "int" Variable 3 = String "ViscousStress" String "ViscousStress" Operator 3 = String "max" String "max" Variable 4 = String "ViscousStress" String "ViscousStress" Operator 4 = String "min" String "min" Operator 5 = String "cpu time" String "cpu time" End Equation 1 Active Solvers (5) = 2 4 6 7 9 Size 5 = 2 4 6 7 9 2 4 6 7 9 End Equation 2 Active Solvers(4) = 1 3 5 8 Size 4 = 1 3 5 8 1 3 5 8 Flow Solution Name = String "Flow Solution" String "Flow Solution" Convection = String Computed String Computed End Boundary Condition 1 Name = "cavity" "cavity" Target Boundaries = 1 1 Body Id = 2 2 Normal-Tangential Velocity = Logical True Logical True Flow Force BC = Logical True Logical True Zs Bottom = Equals bedrock Equals bedrock Zs Bottom Condition = Variable Coordinate 1 Variable Coordinate 1 Real MATC "2.0 - tx" Model Input: Unlisted keyword: [zs bottom condition] in section: [boundary condition 1] Loading user function library: [ElmerIceUSF]...[SlidCoef_Contact] Slip Coefficient 2 = Variable Coordinate 1 Variable Coordinate 1 Real Procedure "ElmerIceUSF" "SlidCoef_Contact" Sliding Law = String weertman String weertman Model Input: Unlisted keyword: [sliding law] in section: [boundary condition 1] Weertman Friction Coefficient = Real 0.0 Real 0.0 Model Input: Unlisted keyword: [weertman friction coefficient] in section: [boundary condition 1] Weertman Exponent = Real 1.0 Real 1.0 Model Input: Unlisted keyword: [weertman exponent] in section: [boundary condition 1] Weertman Linear Velocity = Real 1.0 Real 1.0 Model Input: Unlisted keyword: [weertman linear velocity] in section: [boundary condition 1] Velocity 1 = Real 0.0 Real 0.0 Velocity 1 Condition = Variable GroundedMask Variable GroundedMask Real MATC "tx + 0.5" External Pressure = Real -1 Real -1 ComputeNormal = Logical True Logical True Model Input: Unlisted keyword: [computenormal] in section: [boundary condition 1] ComputeNormal Condition = Variable GroundedMask Variable GroundedMask Real MATC "tx + 0.5" Model Input: Unlisted keyword: [computenormal condition] in section: [boundary condition 1] Loading user function library: [ElmerIceUSF]...[ZsBottomMzsIni] Mesh Update 1 = Real 0.0e0 Real 0.0e0 Mesh Update 2 = Variable Zs Bottom Variable Zs Bottom Real Procedure "ElmerIceUSF" "ZsBottomMzsIni" Save Line = Logical True Logical True End Boundary Condition 2 Name = "ice right" "ice right" Target Boundaries = 2 2 Periodic BC = 4 4 Periodic BC Translate(2) = Real 10.0 0.0 Size 2 = Real 10.0 0.0 Real 10.0 0.0 Periodic BC Velocity 1 = Logical True Logical True Periodic BC Velocity 2 = Logical True Logical True Periodic BC Pressure = Logical True Logical True Periodic BC Zs Bottom = Logical True Logical True Model Input: Unlisted keyword: [periodic bc zs bottom] in section: [boundary condition 2] Periodic BC Mesh Update 2 = Logical True Logical True End Boundary Condition 3 Name = "ice top" "ice top" Target Boundaries = 3 3 Velocity 1 = Real 10 Real 10 Flow Force BC = Logical True Logical True External Pressure = Real -1.2 Real -1.2 Mesh Update 1 = real 0.0 real 0.0 Mesh Update 2 = real 0.0 real 0.0 End Boundary Condition 4 Name = "ice left" "ice left" Target Boundaries = 4 4 End GroundedSolverInit: Memory allocation done. Initial Grounding Line, x 2.0000000000000000 Initial Grounding Line, x 8.0000000000000000 MAIN: MAIN: ------------------------------------- MAIN: Time: 1/20 1.0000000000000000 MAIN: ------------------------------------- MAIN: GroundedSolver: Computing grounded mask from geometry GroundedSolver: Memory allocation done. Grounding Line, x 2.0000000000000000 Grounding Line, x 8.0000000000000000 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: Memory allocation done. GetHydrostaticLoads: End SlidCoef_Contact: GL may move by default SlidCoef_Contact: If you want to fix the Grounding Line, put the keyword "Grounding line moves" to False SlidCoef_Contact: far inland nodes have the possibility to detach by default SlidCoef_Contact: to avoid detachment (when bedrock is well below sea level), SlidCoef_Contact: use the keyword "non detachment inland distance" to the distance you wish SlidCoef_Contact: This works with the DistanceSolver Flow Solution F ComputeChange: NS (ITER=1) (NRM,RELC): ( 7.0514976 2.0000000 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 7.0594487 0.11269439E-02 ) :: navier-stokes ComputeChange: NS (ITER=3) (NRM,RELC): ( 7.0540673 0.76258099E-03 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 2.0000000000000000 0.10000000000000001 0.0000000000000000 Retreat of the Grounding Line : 8.0000000000000000 -0.10000000000000001 0.0000000000000000 ComputeChange: NS (ITER=4) (NRM,RELC): ( 7.0509845 0.43712451E-03 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 7.0487638 0.31500309E-03 ) :: navier-stokes ComputeChange: NS (ITER=6) (NRM,RELC): ( 7.0472814 0.21033016E-03 ) :: navier-stokes ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0462950 0.13996932E-03 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0456376 0.93304874E-04 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0451986 0.62313742E-04 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0449052 0.41641544E-04 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0447092 0.27817433E-04 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0445784 0.18568414E-04 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0444912 0.12384606E-04 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0444330 0.82546549E-05 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0443943 0.54993096E-05 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0443685 0.36625952E-05 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0443513 0.24389643E-05 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0443399 0.16240722E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0443323 0.10814875E-05 ) :: navier-stokes ComputeChange: NS (ITER=20) (NRM,RELC): ( 7.0443272 0.72023589E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.2144601 2.0000000 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2124247 0.16773815E-02 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.2117236 0.57838410E-03 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.44539613E-01 1.8581838 ) :: sij 1 0.6116E-01 2 0.6175E-13 2 0.6175E-13 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.11267688 2.0000000 ) :: free surface cavity 1 0.9190E-14 1 0.9190E-14 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.11267688 0.21405984E-12 ) :: free surface cavity MAIN: MAIN: ------------------------------------- MAIN: Time: 2/20 2.0000000000000000 MAIN: Estimated time left: 2 minutes. MAIN: ------------------------------------- MAIN: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.62997569E-01 2.0000000 ) :: mesh update GroundedSolver: Computing grounded mask from geometry Grounding Line, x 2.0000000000000000 Grounding Line, x 10.000000000000000 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: End ComputeChange: NS (ITER=1) (NRM,RELC): ( 5.5728214 0.23325489 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 6.8209950 0.20141876 ) :: navier-stokes ComputeChange: NS (ITER=3) (NRM,RELC): ( 6.9404722 0.17364020E-01 ) :: navier-stokes ComputeChange: NS (ITER=4) (NRM,RELC): ( 6.9713514 0.44392780E-02 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 6.9844999 0.18843047E-02 ) :: navier-stokes ComputeChange: NS (ITER=6) (NRM,RELC): ( 6.9912905 0.97176631E-03 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 0.0000000000000000 0.0000000000000000 0.0000000000000000 Retreat of the Grounding Line : 10.000000000000000 0.0000000000000000 0.0000000000000000 ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0346327 0.61802999E-02 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0407495 0.86913944E-03 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0429493 0.31239452E-03 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0439546 0.14272760E-03 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0444957 0.76818843E-04 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0448162 0.45486051E-04 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0450152 0.28254073E-04 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0451417 0.17957674E-04 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0452231 0.11544216E-04 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0452757 0.74676402E-05 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0453098 0.48495649E-05 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0453321 0.31583037E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0453466 0.20615622E-05 ) :: navier-stokes ComputeChange: NS (ITER=20) (NRM,RELC): ( 7.0453561 0.13482997E-05 ) :: navier-stokes ComputeChange: NS (ITER=21) (NRM,RELC): ( 7.0453623 0.88332423E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.2633901 0.18390457 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2247071 0.31094418E-01 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.2400326 0.12435772E-01 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.73638580E-01 1.7757777 ) :: sij 1 0.6942E-01 2 0.1306E-12 2 0.1306E-12 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.32396012 0.96777523 ) :: free surface cavity 1 0.1222E-10 1 0.1222E-10 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.11856675 0.92827526 ) :: free surface cavity 1 0.3647E-11 1 0.3647E-11 ComputeChange: NS (ITER=6) (NRM,RELC): ( 0.11856675 0.82786780E-12 ) :: free surface cavity MAIN: MAIN: ------------------------------------- MAIN: Time: 3/20 3.0000000000000000 MAIN: Estimated time left: 2 minutes. MAIN: ------------------------------------- MAIN: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.45826553E-01 0.31557372 ) :: mesh update GroundedSolver: Computing grounded mask from geometry Grounding Line, x 2.0000000000000000 Grounding Line, x 5.2999999999999998 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: End ComputeChange: NS (ITER=1) (NRM,RELC): ( 7.0588039 0.19060455E-02 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 7.0590044 0.28400337E-04 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 2.0000000000000000 0.10000000000000001 0.0000000000000000 Retreat of the Grounding Line : 5.2999999999999998 -0.23500000000000004 0.0000000000000000 ComputeChange: NS (ITER=3) (NRM,RELC): ( 7.0629021 0.55200757E-03 ) :: navier-stokes ComputeChange: NS (ITER=4) (NRM,RELC): ( 7.0657992 0.41009689E-03 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 7.0676607 0.26342520E-03 ) :: navier-stokes ComputeChange: NS (ITER=6) (NRM,RELC): ( 7.0688212 0.16417367E-03 ) :: navier-stokes ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0695522 0.10340713E-03 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0700198 0.66145715E-04 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0703228 0.42860450E-04 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0705211 0.28037483E-04 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0706516 0.18463452E-04 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0707380 0.12214081E-04 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0707953 0.81046424E-05 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0708334 0.53887118E-05 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0708587 0.35876556E-05 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0708756 0.23906052E-05 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0708869 0.15938268E-05 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0708944 0.10629701E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0708994 0.70907268E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.1878724 0.97965255E-01 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2040266 0.13507468E-01 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.1954119 0.71806245E-02 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.26396999E-01 1.9135806 ) :: sij 1 0.1251E+01 2 0.2885E-13 2 0.2885E-13 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.12888227 0.83374887E-01 ) :: free surface cavity 1 0.1004E-14 1 0.1004E-14 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.12888227 0.22612385E-13 ) :: free surface cavity MAIN: MAIN: ------------------------------------- MAIN: Time: 4/20 4.0000000000000000 MAIN: Estimated time left: 2 minutes. MAIN: ------------------------------------- MAIN: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.30671550E-01 0.39621905 ) :: mesh update GroundedSolver: Computing grounded mask from geometry Grounding Line, x 2.0000000000000000 Grounding Line, x 5.2999999999999998 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: End ComputeChange: NS (ITER=1) (NRM,RELC): ( 6.8155003 0.36784068E-01 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 6.9389224 0.17946532E-01 ) :: navier-stokes ComputeChange: NS (ITER=3) (NRM,RELC): ( 6.9635839 0.35477840E-02 ) :: navier-stokes ComputeChange: NS (ITER=4) (NRM,RELC): ( 6.9730600 0.13598695E-02 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 6.9775471 0.64328802E-03 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 5.2999999999999998 -0.23499999999999999 0.0000000000000000 Retreat of the Grounding Line : 5.5999999999999996 -0.22000000000000003 0.0000000000000000 ComputeChange: NS (ITER=6) (NRM,RELC): ( 7.0383522 0.86765894E-02 ) :: navier-stokes ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0566410 0.25950736E-02 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0636268 0.98947078E-03 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0668712 0.45921080E-03 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0685863 0.24266583E-03 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0695671 0.13874050E-03 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0701565 0.83373902E-04 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0705223 0.51730639E-04 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0707540 0.32769810E-04 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0709027 0.21042952E-04 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0709992 0.13635021E-04 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0710620 0.88885300E-05 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0711032 0.58181134E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0711302 0.38190224E-05 ) :: navier-stokes ComputeChange: NS (ITER=20) (NRM,RELC): ( 7.0711479 0.25116885E-05 ) :: navier-stokes ComputeChange: NS (ITER=21) (NRM,RELC): ( 7.0711596 0.16541352E-05 ) :: navier-stokes ComputeChange: NS (ITER=22) (NRM,RELC): ( 7.0711673 0.10904284E-05 ) :: navier-stokes ComputeChange: NS (ITER=23) (NRM,RELC): ( 7.0711724 0.71932825E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.1875953 0.13667123 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2048426 0.14418140E-01 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.1956301 0.76755607E-02 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.28095393E-01 1.9081644 ) :: sij 1 0.6724E-05 2 0.1055E-11 2 0.1055E-11 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.13782969 0.67094291E-01 ) :: free surface cavity 1 0.1066E-14 1 0.1066E-14 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.13782969 0.33831148E-13 ) :: free surface cavity MAIN: MAIN: ------------------------------------- MAIN: Time: 5/20 5.0000000000000000 MAIN: Estimated time left: 2 minutes. MAIN: ------------------------------------- MAIN: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.34475297E-01 0.11677455 ) :: mesh update GroundedSolver: Computing grounded mask from geometry Grounding Line, x 2.0000000000000000 Grounding Line, x 5.4000000000000004 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: End ComputeChange: NS (ITER=1) (NRM,RELC): ( 6.7873149 0.40965148E-01 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 6.9237509 0.19901592E-01 ) :: navier-stokes ComputeChange: NS (ITER=3) (NRM,RELC): ( 6.9499318 0.37741796E-02 ) :: navier-stokes ComputeChange: NS (ITER=4) (NRM,RELC): ( 6.9617424 0.16979388E-02 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 6.9682176 0.92967997E-03 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 5.4000000000000004 -0.23000000000000001 0.0000000000000000 Retreat of the Grounding Line : 5.7000000000000002 -0.21499999999999997 0.0000000000000000 ComputeChange: NS (ITER=6) (NRM,RELC): ( 7.0350427 0.95442113E-02 ) :: navier-stokes ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0548519 0.28118443E-02 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0624285 0.10733734E-02 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0659362 0.49654277E-03 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0677854 0.26167875E-03 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0688428 0.14959057E-03 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0694795 0.90069710E-04 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0698759 0.56069376E-04 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0701280 0.35662901E-04 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0702907 0.23003523E-04 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0703965 0.14975378E-04 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0704659 0.98089715E-05 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0705115 0.64514008E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0705416 0.42549095E-05 ) :: navier-stokes ComputeChange: NS (ITER=20) (NRM,RELC): ( 7.0705615 0.28115543E-05 ) :: navier-stokes ComputeChange: NS (ITER=21) (NRM,RELC): ( 7.0705746 0.18602164E-05 ) :: navier-stokes ComputeChange: NS (ITER=22) (NRM,RELC): ( 7.0705833 0.12318737E-05 ) :: navier-stokes ComputeChange: NS (ITER=23) (NRM,RELC): ( 7.0705891 0.81627393E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.1876387 0.13648472 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2048689 0.14403453E-01 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.1956138 0.77110654E-02 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.29714270E-01 1.9029998 ) :: sij 1 0.1795E-07 2 0.3244E-10 2 0.3244E-10 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.13879821 0.70023501E-02 ) :: free surface cavity 1 0.6378E-13 1 0.6378E-13 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.13879821 0.24442419E-11 ) :: free surface cavity MAIN: MAIN: ------------------------------------- MAIN: Time: 6/20 6.0000000000000000 MAIN: Estimated time left: 2 minutes. MAIN: ------------------------------------- MAIN: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.36325060E-01 0.52252939E-01 ) :: mesh update GroundedSolver: Computing grounded mask from geometry Grounding Line, x 2.0000000000000000 Grounding Line, x 5.5999999999999996 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: End ComputeChange: NS (ITER=1) (NRM,RELC): ( 6.7669409 0.43887633E-01 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 6.9164588 0.21853920E-01 ) :: navier-stokes ComputeChange: NS (ITER=3) (NRM,RELC): ( 6.9435816 0.39138063E-02 ) :: navier-stokes ComputeChange: NS (ITER=4) (NRM,RELC): ( 6.9559354 0.17775926E-02 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 6.9628162 0.98870710E-03 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 5.5999999999999996 -0.21999999999999997 0.0000000000000000 Retreat of the Grounding Line : 5.9000000000000004 -0.20499999999999999 0.0000000000000000 ComputeChange: NS (ITER=6) (NRM,RELC): ( 7.0320226 0.98902747E-02 ) :: navier-stokes ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0527522 0.29435398E-02 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0607841 0.11381921E-02 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0645293 0.53028357E-03 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0665121 0.28063020E-03 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0676487 0.16081893E-03 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0683341 0.96976767E-04 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0687612 0.60429080E-04 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0690331 0.38462466E-04 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0692086 0.24821596E-04 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0693229 0.16164712E-04 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0693977 0.10590713E-04 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0694470 0.69668495E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0694795 0.45954983E-05 ) :: navier-stokes ComputeChange: NS (ITER=20) (NRM,RELC): ( 7.0695009 0.30369369E-05 ) :: navier-stokes ComputeChange: NS (ITER=21) (NRM,RELC): ( 7.0695152 0.20095232E-05 ) :: navier-stokes ComputeChange: NS (ITER=22) (NRM,RELC): ( 7.0695246 0.13308649E-05 ) :: navier-stokes ComputeChange: NS (ITER=23) (NRM,RELC): ( 7.0695308 0.88194828E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.1887813 0.13741617 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2054859 0.13953807E-01 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.1964491 0.75246075E-02 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.30175297E-01 1.9015989 ) :: sij 1 0.1307E-07 2 0.1416E-07 3 0.2340E-14 3 0.2340E-14 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.13872208 0.54865922E-03 ) :: free surface cavity 1 0.6517E-15 1 0.6517E-15 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.13872208 0.0000000 ) :: free surface cavity MAIN: MAIN: ------------------------------------- MAIN: Time: 7/20 7.0000000000000000 MAIN: Estimated time left: 2 minutes. MAIN: ------------------------------------- MAIN: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.37195193E-01 0.23670561E-01 ) :: mesh update GroundedSolver: Computing grounded mask from geometry Grounding Line, x 2.0000000000000000 Grounding Line, x 5.7000000000000002 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: End ComputeChange: NS (ITER=1) (NRM,RELC): ( 6.7841032 0.41206163E-01 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 6.9219532 0.20115190E-01 ) :: navier-stokes ComputeChange: NS (ITER=3) (NRM,RELC): ( 6.9462282 0.35008240E-02 ) :: navier-stokes ComputeChange: NS (ITER=4) (NRM,RELC): ( 6.9573456 0.15992085E-02 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 6.9635256 0.88787490E-03 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 5.7000000000000002 -0.21500000000000000 0.0000000000000000 ComputeChange: NS (ITER=6) (NRM,RELC): ( 7.0315366 0.97192880E-02 ) :: navier-stokes ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0520199 0.29088216E-02 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0600456 0.11374288E-02 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0638105 0.53311934E-03 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0658085 0.28281282E-03 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0669557 0.16234945E-03 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0676488 0.98065634E-04 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0680814 0.61211647E-04 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0683573 0.39025500E-04 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0685356 0.25225448E-04 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0686519 0.16453050E-04 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0687282 0.10795510E-04 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0687784 0.71115359E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0688116 0.46971770E-05 ) :: navier-stokes ComputeChange: NS (ITER=20) (NRM,RELC): ( 7.0688336 0.31080267E-05 ) :: navier-stokes ComputeChange: NS (ITER=21) (NRM,RELC): ( 7.0688482 0.20589866E-05 ) :: navier-stokes ComputeChange: NS (ITER=22) (NRM,RELC): ( 7.0688578 0.13651255E-05 ) :: navier-stokes ComputeChange: NS (ITER=23) (NRM,RELC): ( 7.0688642 0.90557961E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.1888509 0.13675289 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2054621 0.13875557E-01 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.1964184 0.75304899E-02 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.31278523E-01 1.8980904 ) :: sij 1 0.9822E-08 2 0.6443E-08 3 0.2038E-14 3 0.2038E-14 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.13945156 0.52447935E-02 ) :: free surface cavity 1 0.8837E-15 1 0.8837E-15 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.13945156 0.19903381E-15 ) :: free surface cavity MAIN: MAIN: ------------------------------------- MAIN: Time: 8/20 8.0000000000000000 MAIN: Estimated time left: 2 minutes. MAIN: ------------------------------------- MAIN: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.39721460E-01 0.65688434E-01 ) :: mesh update GroundedSolver: Computing grounded mask from geometry Grounding Line, x 2.0000000000000000 Grounding Line, x 5.9000000000000004 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: End ComputeChange: NS (ITER=1) (NRM,RELC): ( 6.7511727 0.45975491E-01 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 6.9144100 0.23890273E-01 ) :: navier-stokes ComputeChange: NS (ITER=3) (NRM,RELC): ( 6.9409847 0.38360073E-02 ) :: navier-stokes ComputeChange: NS (ITER=4) (NRM,RELC): ( 6.9527995 0.17007429E-02 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 6.9593315 0.93902364E-03 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 5.9000000000000004 -0.20499999999999999 0.0000000000000000 ComputeChange: NS (ITER=6) (NRM,RELC): ( 7.0287149 0.99203842E-02 ) :: navier-stokes ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0498568 0.30034151E-02 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0582763 0.11935724E-02 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0622629 0.56465002E-03 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0643891 0.30103009E-03 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0656127 0.17318391E-03 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0663523 0.10467205E-03 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0668139 0.65316259E-04 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0671079 0.41610140E-04 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0672978 0.26868252E-04 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0674215 0.17503995E-04 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0675026 0.11470880E-04 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0675559 0.75469675E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0675911 0.49785989E-05 ) :: navier-stokes ComputeChange: NS (ITER=20) (NRM,RELC): ( 7.0676144 0.32902625E-05 ) :: navier-stokes ComputeChange: NS (ITER=21) (NRM,RELC): ( 7.0676297 0.21771819E-05 ) :: navier-stokes ComputeChange: NS (ITER=22) (NRM,RELC): ( 7.0676399 0.14418917E-05 ) :: navier-stokes ComputeChange: NS (ITER=23) (NRM,RELC): ( 7.0676467 0.95550101E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.1902460 0.13790834 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2063420 0.13432446E-01 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.1975094 0.73487607E-02 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.31725327E-01 1.8967640 ) :: sij 1 0.1708E-07 2 0.3071E-08 3 0.1733E-14 3 0.1733E-14 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.13936420 0.62668269E-03 ) :: free surface cavity 1 0.9379E-15 1 0.9379E-15 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.13936420 0.19915858E-15 ) :: free surface cavity MAIN: MAIN: ------------------------------------- MAIN: Time: 9/20 9.0000000000000000 MAIN: Estimated time left: 2 minutes. MAIN: ------------------------------------- MAIN: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.40865363E-01 0.28389340E-01 ) :: mesh update GroundedSolver: Computing grounded mask from geometry Grounding Line, x 2.0000000000000000 Grounding Line, x 6.0000000000000000 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: End ComputeChange: NS (ITER=1) (NRM,RELC): ( 6.7582432 0.44757124E-01 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 6.9135854 0.22724425E-01 ) :: navier-stokes ComputeChange: NS (ITER=3) (NRM,RELC): ( 6.9388643 0.36497465E-02 ) :: navier-stokes ComputeChange: NS (ITER=4) (NRM,RELC): ( 6.9504777 0.16722695E-02 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 6.9569896 0.93645407E-03 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 6.0000000000000000 -0.20000000000000001 0.0000000000000000 ComputeChange: NS (ITER=6) (NRM,RELC): ( 7.0272017 0.10041651E-01 ) :: navier-stokes ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0486819 0.30520458E-02 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0572883 0.12202506E-02 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0613774 0.57924719E-03 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0635622 0.30935563E-03 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0648204 0.17811331E-03 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0655812 0.10767724E-03 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0660559 0.67189492E-04 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0663583 0.42796203E-04 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0665536 0.27627386E-04 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0666807 0.17993522E-04 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0667640 0.11788189E-04 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0668188 0.77533800E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0668549 0.51132028E-05 ) :: navier-stokes ComputeChange: NS (ITER=20) (NRM,RELC): ( 7.0668788 0.33781831E-05 ) :: navier-stokes ComputeChange: NS (ITER=21) (NRM,RELC): ( 7.0668946 0.22346730E-05 ) :: navier-stokes ComputeChange: NS (ITER=22) (NRM,RELC): ( 7.0669051 0.14795113E-05 ) :: navier-stokes ComputeChange: NS (ITER=23) (NRM,RELC): ( 7.0669120 0.98012803E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.1909280 0.13754386 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2066015 0.13074702E-01 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.1979456 0.71995856E-02 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.32210131E-01 1.8952649 ) :: sij 1 0.1165E-07 2 0.6769E-08 3 0.2507E-14 3 0.2507E-14 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.13955506 0.13685837E-02 ) :: free surface cavity 1 0.1082E-14 1 0.1082E-14 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.13955506 0.19888620E-15 ) :: free surface cavity MAIN: MAIN: ------------------------------------- MAIN: Time: 10/20 10.000000000000000 MAIN: Estimated time left: 2 minutes. MAIN: ------------------------------------- MAIN: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.42219668E-01 0.32600454E-01 ) :: mesh update GroundedSolver: Computing grounded mask from geometry Grounding Line, x 2.0000000000000000 Grounding Line, x 6.0999999999999996 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: End ComputeChange: NS (ITER=1) (NRM,RELC): ( 6.7556762 0.45032931E-01 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 6.9129602 0.23013858E-01 ) :: navier-stokes ComputeChange: NS (ITER=3) (NRM,RELC): ( 6.9378860 0.35991760E-02 ) :: navier-stokes ComputeChange: NS (ITER=4) (NRM,RELC): ( 6.9493715 0.16541072E-02 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 6.9558250 0.92821230E-03 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 6.0999999999999996 -0.19500000000000006 0.0000000000000000 ComputeChange: NS (ITER=6) (NRM,RELC): ( 7.0259826 0.10035562E-01 ) :: navier-stokes ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0475565 0.30658778E-02 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0562894 0.12383750E-02 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0604650 0.59156706E-03 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0627029 0.31691836E-03 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0639937 0.18274958E-03 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0647748 0.11056508E-03 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0652624 0.69015946E-04 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0655730 0.43965594E-04 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0657736 0.28382991E-04 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0659042 0.18484989E-04 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0659897 0.12109354E-04 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0660460 0.79639509E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0660831 0.52515819E-05 ) :: navier-stokes ComputeChange: NS (ITER=20) (NRM,RELC): ( 7.0661076 0.34692683E-05 ) :: navier-stokes ComputeChange: NS (ITER=21) (NRM,RELC): ( 7.0661239 0.22946934E-05 ) :: navier-stokes ComputeChange: NS (ITER=22) (NRM,RELC): ( 7.0661346 0.15190914E-05 ) :: navier-stokes ComputeChange: NS (ITER=23) (NRM,RELC): ( 7.0661417 0.10062435E-05 ) :: navier-stokes ComputeChange: NS (ITER=24) (NRM,RELC): ( 7.0661464 0.66681330E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.1916134 0.13773239 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2068556 0.12709893E-01 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.1983782 0.70490733E-02 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.32923523E-01 1.8930448 ) :: sij 1 0.1146E-07 2 0.6858E-08 3 0.1626E-14 3 0.1626E-14 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.13980168 0.17656561E-02 ) :: free surface cavity 1 0.7290E-15 1 0.7290E-15 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.13980168 0.0000000 ) :: free surface cavity MAIN: MAIN: ------------------------------------- MAIN: Time: 11/20 11.000000000000000 MAIN: Estimated time left: 2 minutes. MAIN: ------------------------------------- MAIN: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.43647766E-01 0.33262844E-01 ) :: mesh update GroundedSolver: Computing grounded mask from geometry Grounding Line, x 2.0000000000000000 Grounding Line, x 6.2000000000000002 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: End ComputeChange: NS (ITER=1) (NRM,RELC): ( 6.7528599 0.45341392E-01 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 6.9121188 0.23309057E-01 ) :: navier-stokes ComputeChange: NS (ITER=3) (NRM,RELC): ( 6.9366970 0.35495015E-02 ) :: navier-stokes ComputeChange: NS (ITER=4) (NRM,RELC): ( 6.9480611 0.16369206E-02 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 6.9544614 0.92073453E-03 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 6.2000000000000002 -0.18999999999999997 0.0000000000000000 ComputeChange: NS (ITER=6) (NRM,RELC): ( 7.0246828 0.10046591E-01 ) :: navier-stokes ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0463881 0.30851010E-02 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0552560 0.12577178E-02 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0595198 0.60415282E-03 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0618115 0.32457666E-03 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0631352 0.18743039E-03 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0639368 0.11347551E-03 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0644373 0.70855551E-04 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0647562 0.45143565E-04 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0649621 0.29144556E-04 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0650962 0.18980781E-04 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0651841 0.12433730E-04 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0652419 0.81769217E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0652799 0.53917524E-05 ) :: navier-stokes ComputeChange: NS (ITER=20) (NRM,RELC): ( 7.0653051 0.35616797E-05 ) :: navier-stokes ComputeChange: NS (ITER=21) (NRM,RELC): ( 7.0653218 0.23556918E-05 ) :: navier-stokes ComputeChange: NS (ITER=22) (NRM,RELC): ( 7.0653328 0.15593862E-05 ) :: navier-stokes ComputeChange: NS (ITER=23) (NRM,RELC): ( 7.0653401 0.10328763E-05 ) :: navier-stokes ComputeChange: NS (ITER=24) (NRM,RELC): ( 7.0653449 0.68442238E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.1923387 0.13795369 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2071245 0.12324253E-01 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.1988369 0.68892088E-02 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.33576605E-01 1.8910216 ) :: sij 1 0.1201E-07 2 0.6921E-08 3 0.2310E-14 3 0.2310E-14 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.14005093 0.17812528E-02 ) :: free surface cavity 1 0.8276E-15 1 0.8276E-15 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.14005093 0.19818202E-15 ) :: free surface cavity MAIN: MAIN: ------------------------------------- MAIN: Time: 12/20 12.000000000000000 MAIN: Estimated time left: 1 minutes. MAIN: ------------------------------------- MAIN: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.45112061E-01 0.32994557E-01 ) :: mesh update GroundedSolver: Computing grounded mask from geometry Grounding Line, x 2.0000000000000000 Grounding Line, x 6.2999999999999998 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: End ComputeChange: NS (ITER=1) (NRM,RELC): ( 6.7503528 0.45599159E-01 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 6.9113335 0.23566734E-01 ) :: navier-stokes ComputeChange: NS (ITER=3) (NRM,RELC): ( 6.9355140 0.34925712E-02 ) :: navier-stokes ComputeChange: NS (ITER=4) (NRM,RELC): ( 6.9467259 0.16152862E-02 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 6.9530524 0.91030660E-03 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 6.2999999999999998 -0.18500000000000000 0.0000000000000000 ComputeChange: NS (ITER=6) (NRM,RELC): ( 7.0233459 0.10058878E-01 ) :: navier-stokes ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0451868 0.31049338E-02 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0541895 0.12770293E-02 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0585408 0.61665618E-03 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0608860 0.33219105E-03 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0622424 0.19208720E-03 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0630643 0.11637009E-03 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0635777 0.72683438E-04 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0639049 0.46312720E-04 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0641161 0.29899655E-04 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0642536 0.19471946E-04 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0643437 0.12754860E-04 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0644030 0.83876519E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0644420 0.55303963E-05 ) :: navier-stokes ComputeChange: NS (ITER=20) (NRM,RELC): ( 7.0644678 0.36530628E-05 ) :: navier-stokes ComputeChange: NS (ITER=21) (NRM,RELC): ( 7.0644849 0.24160003E-05 ) :: navier-stokes ComputeChange: NS (ITER=22) (NRM,RELC): ( 7.0644962 0.15992235E-05 ) :: navier-stokes ComputeChange: NS (ITER=23) (NRM,RELC): ( 7.0645037 0.10592061E-05 ) :: navier-stokes ComputeChange: NS (ITER=24) (NRM,RELC): ( 7.0645087 0.70183298E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.1931068 0.13818858 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2073987 0.11907473E-01 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.1993190 0.67143504E-02 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.34196652E-01 1.8891083 ) :: sij 1 0.1263E-07 2 0.6883E-08 3 0.1790E-14 3 0.1790E-14 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.14028457 0.16668471E-02 ) :: free surface cavity 1 0.7802E-15 1 0.7802E-15 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.14028457 0.0000000 ) :: free surface cavity MAIN: MAIN: ------------------------------------- MAIN: Time: 13/20 13.000000000000000 MAIN: Estimated time left: 1 minutes. MAIN: ------------------------------------- MAIN: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.46593451E-01 0.32307542E-01 ) :: mesh update GroundedSolver: Computing grounded mask from geometry Grounding Line, x 2.0000000000000000 Grounding Line, x 6.4000000000000004 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: End ComputeChange: NS (ITER=1) (NRM,RELC): ( 6.7481277 0.45810364E-01 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 6.9106008 0.23790373E-01 ) :: navier-stokes ComputeChange: NS (ITER=3) (NRM,RELC): ( 6.9343456 0.34301004E-02 ) :: navier-stokes ComputeChange: NS (ITER=4) (NRM,RELC): ( 6.9453830 0.15904318E-02 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 6.9516205 0.89767749E-03 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 6.4000000000000004 -0.17999999999999997 0.0000000000000000 ComputeChange: NS (ITER=6) (NRM,RELC): ( 7.0219803 0.10070384E-01 ) :: navier-stokes ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0439536 0.31243391E-02 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0530888 0.12960337E-02 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0575267 0.62901995E-03 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0599249 0.33974738E-03 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0613138 0.19671550E-03 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0621559 0.11924694E-03 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0626820 0.74498670E-04 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0630173 0.47472471E-04 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0632338 0.30647802E-04 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0633748 0.19958058E-04 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0634671 0.13072383E-04 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0635278 0.85958477E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0635679 0.56672805E-05 ) :: navier-stokes ComputeChange: NS (ITER=20) (NRM,RELC): ( 7.0635943 0.37432383E-05 ) :: navier-stokes ComputeChange: NS (ITER=21) (NRM,RELC): ( 7.0636118 0.24754882E-05 ) :: navier-stokes ComputeChange: NS (ITER=22) (NRM,RELC): ( 7.0636234 0.16385053E-05 ) :: navier-stokes ComputeChange: NS (ITER=23) (NRM,RELC): ( 7.0636310 0.10851631E-05 ) :: navier-stokes ComputeChange: NS (ITER=24) (NRM,RELC): ( 7.0636361 0.71899430E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.1939152 0.13843727 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2076801 0.11463100E-01 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.1998238 0.65265229E-02 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.34806606E-01 1.8872323 ) :: sij 1 0.1332E-07 2 0.6637E-08 3 0.1550E-14 3 0.1550E-14 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.14048507 0.14282696E-02 ) :: free surface cavity 1 0.7532E-15 1 0.7532E-15 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.14048507 0.19756957E-15 ) :: free surface cavity MAIN: MAIN: ------------------------------------- MAIN: Time: 14/20 14.000000000000000 MAIN: Estimated time left: 1 minutes. MAIN: ------------------------------------- MAIN: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.48074538E-01 0.31290122E-01 ) :: mesh update GroundedSolver: Computing grounded mask from geometry Grounding Line, x 2.0000000000000000 Grounding Line, x 6.5000000000000000 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: End ComputeChange: NS (ITER=1) (NRM,RELC): ( 6.7462020 0.45972175E-01 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 6.9099286 0.23978488E-01 ) :: navier-stokes ComputeChange: NS (ITER=3) (NRM,RELC): ( 6.9332016 0.33623780E-02 ) :: navier-stokes ComputeChange: NS (ITER=4) (NRM,RELC): ( 6.9440430 0.15624838E-02 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 6.9501776 0.88303596E-03 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 6.5000000000000000 -0.17499999999999999 0.0000000000000000 ComputeChange: NS (ITER=6) (NRM,RELC): ( 7.0205912 0.10080138E-01 ) :: navier-stokes ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0426899 0.31427479E-02 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0519537 0.13145193E-02 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0564767 0.64116917E-03 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0589272 0.34721256E-03 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0603483 0.20129840E-03 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0612104 0.12209669E-03 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0617492 0.76295668E-04 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0620925 0.48619334E-04 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0623142 0.31386735E-04 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0624585 0.20437612E-04 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0625530 0.13385285E-04 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0626152 0.88008194E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0626562 0.58019389E-05 ) :: navier-stokes ComputeChange: NS (ITER=20) (NRM,RELC): ( 7.0626832 0.38318879E-05 ) :: navier-stokes ComputeChange: NS (ITER=21) (NRM,RELC): ( 7.0627011 0.25339368E-05 ) :: navier-stokes ComputeChange: NS (ITER=22) (NRM,RELC): ( 7.0627130 0.16770842E-05 ) :: navier-stokes ComputeChange: NS (ITER=23) (NRM,RELC): ( 7.0627208 0.11106473E-05 ) :: navier-stokes ComputeChange: NS (ITER=24) (NRM,RELC): ( 7.0627260 0.73583742E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.1947638 0.13869980 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2079683 0.10991177E-01 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.2003510 0.63257825E-02 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.35411816E-01 1.8853767 ) :: sij 1 0.1406E-07 2 0.6041E-08 3 0.2020E-14 3 0.2020E-14 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.14063420 0.10609132E-02 ) :: free surface cavity 1 0.7096E-15 1 0.7096E-15 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.14063420 0.0000000 ) :: free surface cavity MAIN: MAIN: ------------------------------------- MAIN: Time: 15/20 15.000000000000000 MAIN: Estimated time left: 1 minutes. MAIN: ------------------------------------- MAIN: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.49538838E-01 0.30002042E-01 ) :: mesh update GroundedSolver: Computing grounded mask from geometry Grounding Line, x 2.0000000000000000 Grounding Line, x 6.5999999999999996 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: End ComputeChange: NS (ITER=1) (NRM,RELC): ( 6.7445840 0.46083133E-01 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 6.9093169 0.24129799E-01 ) :: navier-stokes ComputeChange: NS (ITER=3) (NRM,RELC): ( 6.9320842 0.32897329E-02 ) :: navier-stokes ComputeChange: NS (ITER=4) (NRM,RELC): ( 6.9427091 0.15315471E-02 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 6.9487274 0.86646818E-03 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 6.5999999999999996 -0.16999999999999998 0.0000000000000000 ComputeChange: NS (ITER=6) (NRM,RELC): ( 7.0191817 0.10088025E-01 ) :: navier-stokes ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0413963 0.31598412E-02 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0507841 0.13323491E-02 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0553901 0.65305218E-03 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0578922 0.35456344E-03 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0593450 0.20582428E-03 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0602269 0.12491304E-03 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0607781 0.78070828E-04 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0611294 0.49751119E-04 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0613562 0.32115063E-04 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0615038 0.20909698E-04 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0616005 0.13692954E-04 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0616641 0.90021535E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0617060 0.59340859E-05 ) :: navier-stokes ComputeChange: NS (ITER=20) (NRM,RELC): ( 7.0617336 0.39188176E-05 ) :: navier-stokes ComputeChange: NS (ITER=21) (NRM,RELC): ( 7.0617519 0.25912136E-05 ) :: navier-stokes ComputeChange: NS (ITER=22) (NRM,RELC): ( 7.0617641 0.17148691E-05 ) :: navier-stokes ComputeChange: NS (ITER=23) (NRM,RELC): ( 7.0617721 0.11355961E-05 ) :: navier-stokes ComputeChange: NS (ITER=24) (NRM,RELC): ( 7.0617774 0.75232195E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.1956529 0.13897646 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2082631 0.10491389E-01 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.2009007 0.61119781E-02 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.36014906E-01 1.8835332 ) :: sij 1 0.1485E-07 2 0.5086E-08 3 0.1966E-14 3 0.1966E-14 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.14071271 0.55813793E-03 ) :: free surface cavity 1 0.7054E-15 1 0.7054E-15 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.14071271 0.19724995E-15 ) :: free surface cavity MAIN: MAIN: ------------------------------------- MAIN: Time: 16/20 16.000000000000000 MAIN: Estimated time left: 1 minutes. MAIN: ------------------------------------- MAIN: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.50970505E-01 0.28488236E-01 ) :: mesh update GroundedSolver: Computing grounded mask from geometry Grounding Line, x 2.0000000000000000 Grounding Line, x 6.7000000000000002 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: End ComputeChange: NS (ITER=1) (NRM,RELC): ( 6.7432805 0.46142051E-01 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 6.9087613 0.24242641E-01 ) :: navier-stokes ComputeChange: NS (ITER=3) (NRM,RELC): ( 6.9309884 0.32120587E-02 ) :: navier-stokes ComputeChange: NS (ITER=4) (NRM,RELC): ( 6.9413751 0.14974716E-02 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 6.9472636 0.84795639E-03 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 6.7000000000000002 -0.16500000000000004 0.0000000000000000 ComputeChange: NS (ITER=6) (NRM,RELC): ( 7.0177525 0.10095080E-01 ) :: navier-stokes ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0400731 0.31755358E-02 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0495796 0.13494339E-02 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0542666 0.66462949E-03 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0568191 0.36178087E-03 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0583032 0.21028326E-03 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0592045 0.12769072E-03 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0597680 0.79821206E-04 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0601271 0.50866110E-04 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0603589 0.32831742E-04 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0605099 0.21373653E-04 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0606087 0.13994960E-04 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0606736 0.91995605E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0607164 0.60635282E-05 ) :: navier-stokes ComputeChange: NS (ITER=20) (NRM,RELC): ( 7.0607447 0.40038930E-05 ) :: navier-stokes ComputeChange: NS (ITER=21) (NRM,RELC): ( 7.0607634 0.26472290E-05 ) :: navier-stokes ComputeChange: NS (ITER=22) (NRM,RELC): ( 7.0607758 0.17517993E-05 ) :: navier-stokes ComputeChange: NS (ITER=23) (NRM,RELC): ( 7.0607840 0.11599672E-05 ) :: navier-stokes ComputeChange: NS (ITER=24) (NRM,RELC): ( 7.0607894 0.76841785E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.1965829 0.13926761 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2085643 0.99631462E-02 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.2014731 0.58847961E-02 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.36616648E-01 1.8816995 ) :: sij 1 0.1571E-07 2 0.3982E-08 3 0.2167E-14 3 0.2167E-14 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.14070038 0.87631164E-04 ) :: free surface cavity 1 0.7519E-15 1 0.7519E-15 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.14070038 0.0000000 ) :: free surface cavity MAIN: MAIN: ------------------------------------- MAIN: Time: 17/20 17.000000000000000 MAIN: Estimated time left: 1 minutes. MAIN: ------------------------------------- MAIN: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.52354128E-01 0.26782055E-01 ) :: mesh update GroundedSolver: Computing grounded mask from geometry Grounding Line, x 2.0000000000000000 Grounding Line, x 6.7999999999999998 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: End ComputeChange: NS (ITER=1) (NRM,RELC): ( 6.7422915 0.46148808E-01 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 6.9082456 0.24314666E-01 ) :: navier-stokes ComputeChange: NS (ITER=3) (NRM,RELC): ( 6.9298913 0.31284080E-02 ) :: navier-stokes ComputeChange: NS (ITER=4) (NRM,RELC): ( 6.9400126 0.14594553E-02 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 6.9457550 0.82708923E-03 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 6.7999999999999998 -0.16000000000000009 0.0000000000000000 ComputeChange: NS (ITER=6) (NRM,RELC): ( 7.0162979 0.10104953E-01 ) :: navier-stokes ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0387181 0.31903482E-02 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0483388 0.13658921E-02 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0531048 0.67596336E-03 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0557072 0.36890296E-03 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0572222 0.21469950E-03 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0581429 0.13044541E-03 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0587185 0.81557098E-04 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0590854 0.51971095E-04 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0593222 0.33541245E-04 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0594763 0.21832422E-04 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0595772 0.14293233E-04 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0596435 0.93943086E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0596872 0.61910931E-05 ) :: navier-stokes ComputeChange: NS (ITER=20) (NRM,RELC): ( 7.0597161 0.40876582E-05 ) :: navier-stokes ComputeChange: NS (ITER=21) (NRM,RELC): ( 7.0597352 0.27023355E-05 ) :: navier-stokes ComputeChange: NS (ITER=22) (NRM,RELC): ( 7.0597478 0.17881041E-05 ) :: navier-stokes ComputeChange: NS (ITER=23) (NRM,RELC): ( 7.0597561 0.11839122E-05 ) :: navier-stokes ComputeChange: NS (ITER=24) (NRM,RELC): ( 7.0597617 0.78422348E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.1975549 0.13957389 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2088715 0.94053375E-02 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.2020683 0.56436035E-02 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.37214427E-01 1.8798840 ) :: sij 1 0.1663E-07 2 0.2977E-08 3 0.1718E-14 3 0.1718E-14 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.14057618 0.88312877E-03 ) :: free surface cavity 1 0.8301E-15 1 0.8301E-15 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.14057618 0.0000000 ) :: free surface cavity MAIN: MAIN: ------------------------------------- MAIN: Time: 18/20 18.000000000000000 MAIN: Estimated time left: 1 minutes. MAIN: ------------------------------------- MAIN: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.53674677E-01 0.24909257E-01 ) :: mesh update GroundedSolver: Computing grounded mask from geometry Grounding Line, x 2.0000000000000000 Grounding Line, x 6.9000000000000004 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: End ComputeChange: NS (ITER=1) (NRM,RELC): ( 6.7415743 0.46109645E-01 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 6.9076815 0.24339380E-01 ) :: navier-stokes ComputeChange: NS (ITER=3) (NRM,RELC): ( 6.9286665 0.30333100E-02 ) :: navier-stokes ComputeChange: NS (ITER=4) (NRM,RELC): ( 6.9384676 0.14135661E-02 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 6.9440313 0.80155241E-03 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 6.9000000000000004 -0.15499999999999997 0.0000000000000000 ComputeChange: NS (ITER=6) (NRM,RELC): ( 7.0147870 0.10137773E-01 ) :: navier-stokes ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0373228 0.32074567E-02 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0470584 0.13824726E-02 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0519039 0.68736005E-03 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0545565 0.37608240E-03 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0561028 0.21915796E-03 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0570429 0.13322816E-03 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0576309 0.83310676E-04 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0580055 0.53086895E-04 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0582473 0.34257241E-04 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0584047 0.22295042E-04 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0585077 0.14593771E-04 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0585754 0.95903766E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0586200 0.63194235E-05 ) :: navier-stokes ComputeChange: NS (ITER=20) (NRM,RELC): ( 7.0586494 0.41718645E-05 ) :: navier-stokes ComputeChange: NS (ITER=21) (NRM,RELC): ( 7.0586689 0.27576965E-05 ) :: navier-stokes ComputeChange: NS (ITER=22) (NRM,RELC): ( 7.0586818 0.18245550E-05 ) :: navier-stokes ComputeChange: NS (ITER=23) (NRM,RELC): ( 7.0586903 0.12079406E-05 ) :: navier-stokes ComputeChange: NS (ITER=24) (NRM,RELC): ( 7.0586960 0.80007748E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.1985718 0.13989744 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2091833 0.88144765E-02 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.2026878 0.53862846E-02 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.37789462E-01 1.8781454 ) :: sij 1 0.1759E-07 2 0.2191E-08 3 0.2309E-14 3 0.2309E-14 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.14032021 0.18225045E-02 ) :: free surface cavity 1 0.8033E-15 1 0.8033E-15 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.14032021 0.19780170E-15 ) :: free surface cavity MAIN: MAIN: ------------------------------------- MAIN: Time: 19/20 19.000000000000000 MAIN: Estimated time left: less than a minute. MAIN: ------------------------------------- MAIN: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.54918285E-01 0.22904012E-01 ) :: mesh update GroundedSolver: Computing grounded mask from geometry Grounding Line, x 2.0000000000000000 Grounding Line, x 7.0000000000000000 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: End ComputeChange: NS (ITER=1) (NRM,RELC): ( 6.7398354 0.46216587E-01 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 6.9063111 0.24398926E-01 ) :: navier-stokes ComputeChange: NS (ITER=3) (NRM,RELC): ( 6.9264641 0.29138043E-02 ) :: navier-stokes ComputeChange: NS (ITER=4) (NRM,RELC): ( 6.9358074 0.13480145E-02 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 6.9411006 0.76288609E-03 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 7.0000000000000000 -0.15000000000000002 0.0000000000000000 ComputeChange: NS (ITER=6) (NRM,RELC): ( 7.0129095 0.10292217E-01 ) :: navier-stokes ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0357866 0.32568296E-02 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0457033 0.14084798E-02 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0506542 0.70242524E-03 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0533694 0.38502711E-03 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0549535 0.22456034E-03 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0559169 0.13655320E-03 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0565194 0.85391647E-04 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0569034 0.54406966E-04 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0571511 0.35103421E-04 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0573123 0.22841744E-04 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0574178 0.14949060E-04 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0574871 0.98222693E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0575328 0.64712567E-05 ) :: navier-stokes ComputeChange: NS (ITER=20) (NRM,RELC): ( 7.0575629 0.42715076E-05 ) :: navier-stokes ComputeChange: NS (ITER=21) (NRM,RELC): ( 7.0575829 0.28232007E-05 ) :: navier-stokes ComputeChange: NS (ITER=22) (NRM,RELC): ( 7.0575960 0.18676710E-05 ) :: navier-stokes ComputeChange: NS (ITER=23) (NRM,RELC): ( 7.0576048 0.12363467E-05 ) :: navier-stokes ComputeChange: NS (ITER=24) (NRM,RELC): ( 7.0576105 0.81880573E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.1996307 0.14023520 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2094003 0.81108493E-02 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.2032867 0.50678571E-02 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.38141153E-01 1.8771055 ) :: sij 1 0.1844E-07 2 0.1668E-08 3 0.2316E-14 3 0.2316E-14 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.13992818 0.27977257E-02 ) :: free surface cavity 1 0.7858E-15 1 0.7858E-15 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.13992818 0.39671173E-15 ) :: free surface cavity MAIN: MAIN: ------------------------------------- MAIN: Time: 20/20 20.000000000000000 MAIN: Estimated time left: less than a minute. MAIN: ------------------------------------- MAIN: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.56079239E-01 0.20918557E-01 ) :: mesh update GroundedSolver: Computing grounded mask from geometry Grounding Line, x 2.0000000000000000 Grounding Line, x 7.0999999999999996 ComputeNormalSolver: Computing Normal Vector for Nodes ComputeNormalSolver: End GetHydrostaticLoads: End ComputeChange: NS (ITER=1) (NRM,RELC): ( 6.7379500 0.46342527E-01 ) :: navier-stokes ComputeChange: NS (ITER=2) (NRM,RELC): ( 6.9062781 0.24673892E-01 ) :: navier-stokes ComputeChange: NS (ITER=3) (NRM,RELC): ( 6.9261267 0.28698682E-02 ) :: navier-stokes ComputeChange: NS (ITER=4) (NRM,RELC): ( 6.9353160 0.13258855E-02 ) :: navier-stokes ComputeChange: NS (ITER=5) (NRM,RELC): ( 6.9405163 0.74954991E-03 ) :: navier-stokes SlidCoef_Contact: FLOW SOLVER HAS SLIGHTLY CONVERGED: look for new basal conditions Retreat of the Grounding Line : 7.0999999999999996 -0.14500000000000002 0.0000000000000000 ComputeChange: NS (ITER=6) (NRM,RELC): ( 7.0116508 0.10196904E-01 ) :: navier-stokes ComputeChange: NS (ITER=7) (NRM,RELC): ( 7.0344439 0.32454704E-02 ) :: navier-stokes ComputeChange: NS (ITER=8) (NRM,RELC): ( 7.0444079 0.14154632E-02 ) :: navier-stokes ComputeChange: NS (ITER=9) (NRM,RELC): ( 7.0494089 0.70967616E-03 ) :: navier-stokes ComputeChange: NS (ITER=10) (NRM,RELC): ( 7.0521600 0.39018018E-03 ) :: navier-stokes ComputeChange: NS (ITER=11) (NRM,RELC): ( 7.0537676 0.22793306E-03 ) :: navier-stokes ComputeChange: NS (ITER=12) (NRM,RELC): ( 7.0547461 0.13871224E-03 ) :: navier-stokes ComputeChange: NS (ITER=13) (NRM,RELC): ( 7.0553583 0.86768413E-04 ) :: navier-stokes ComputeChange: NS (ITER=14) (NRM,RELC): ( 7.0557484 0.55287027E-04 ) :: navier-stokes ComputeChange: NS (ITER=15) (NRM,RELC): ( 7.0560000 0.35668448E-04 ) :: navier-stokes ComputeChange: NS (ITER=16) (NRM,RELC): ( 7.0561638 0.23206192E-04 ) :: navier-stokes ComputeChange: NS (ITER=17) (NRM,RELC): ( 7.0562709 0.15185134E-04 ) :: navier-stokes ComputeChange: NS (ITER=18) (NRM,RELC): ( 7.0563413 0.99757491E-05 ) :: navier-stokes ComputeChange: NS (ITER=19) (NRM,RELC): ( 7.0563877 0.65713469E-05 ) :: navier-stokes ComputeChange: NS (ITER=20) (NRM,RELC): ( 7.0564183 0.43369473E-05 ) :: navier-stokes ComputeChange: NS (ITER=21) (NRM,RELC): ( 7.0564385 0.28660754E-05 ) :: navier-stokes ComputeChange: NS (ITER=22) (NRM,RELC): ( 7.0564519 0.18958104E-05 ) :: navier-stokes ComputeChange: NS (ITER=23) (NRM,RELC): ( 7.0564608 0.12548413E-05 ) :: navier-stokes ComputeChange: NS (ITER=24) (NRM,RELC): ( 7.0564666 0.83097604E-06 ) :: navier-stokes ComputeChange: NS (ITER=1) (NRM,RELC): ( 1.2007290 0.14062739 ) :: sij ComputeChange: NS (ITER=2) (NRM,RELC): ( 1.2097171 0.74575798E-02 ) :: sij ComputeChange: NS (ITER=3) (NRM,RELC): ( 1.2039464 0.47816769E-02 ) :: sij ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.38820700E-01 1.8750508 ) :: sij 1 0.1976E-07 2 0.1163E-08 3 0.2080E-14 3 0.2080E-14 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.13933720 0.42324327E-02 ) :: free surface cavity 1 0.7290E-15 1 0.7290E-15 ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.13933720 0.19919717E-15 ) :: free surface cavity ElmerSolver: *** Elmer Solver: ALL DONE *** ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 155.25 178.64 ELMER SOLVER FINISHED AT: 2014/09/05 11:10:58