Am I right that until no (or several month ago) the specification of "Output File Name = File "case"" in the following .sif file produced result files like "case_0001.vtu" but now I get a result file called "case_t0001.vtu".
Was this changed or did I change/oversee something?
Thanks in advance,
Wil
Code: Select all
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Header
Mesh DB "."
End
Solver 1
Bubbles = Logical False
Calculate Electric Energy = Logical False
Calculate Electric Field = Logical False
Calculate Surface Charge = Logical False
Displace mesh = Logical False
Equation = String "Stat Elec Solver"
Exec Solver = String "Always"
Linear System Abort Not Converged = Logical False
Linear System Convergence Tolerance = Real 1e-08
Linear System Iterative Method = String "BiCGStab"
Linear System Max Iterations = Integer 500
Linear System Precondition Recompute = Integer 1
Linear System Preconditioning = String "ILU0"
Linear System Residual Output = Integer 1
Linear System Solver = String "Iterative"
Optimize Bandwidth = Logical True
Procedure = File "StatElecSolve" "StatElecSolver"
Stabilize = Logical True
Steady State Convergence Tolerance = Real 1e-05
Variable = String "Potential"
Variable DOFs = Integer 1
End
Simulation
BDF Order = Integer 1
Coordinate Mapping(3) = Integer 1 2 3
Coordinate System = String "Cartesian 3D"
Output Intervals = Integer 1
Simulation Type = String "Steady state"
Steady State Max Iterations = Integer 1
Steady State Min Iterations = Integer 0
Timestepping Method = String "BDF"
Use Mesh Names = Logical True
End
Constants
Permittivity Of Vacuum = Real 8.8542e-15
End
Body 1
Equation = Integer 1
Material = Integer 1
Name = String "Solid1"
End
Material 1
Relative Permittivity = Real 1.0
End
Equation 1
Active Solvers(2) = Integer 1 2
End
Solver 2
Equation = String "ResultOutput"
Exec Solver = String "After simulation"
Output File Name = File "case"
Procedure = File "ResultOutputSolve" "ResultOutputSolver"
Vtu Format = Logical True
End
Code: Select all
SolverElmer_manual_execution$ ElmerSolver case.sif
ELMER SOLVER (v 8.4) STARTED AT: 2020/01/24 20:29:45
ParCommInit: Initialize #PEs: 1
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: Version: 8.4 (Rev: unknown, Compiled: 2020-01-22)
MAIN: Running one task without MPI parallelization.
MAIN: Running with just one thread per task.
MAIN: HYPRE library linked in.
MAIN: MUMPS library linked in.
MAIN: =============================================================
MAIN:
MAIN:
MAIN: -------------------------------------
MAIN: Reading Model: case.sif
LoadInputFile: Scanning input file: case.sif
LoadInputFile: Loading input file: case.sif
Loading user function library: [StatElecSolve]...[StatElecSolver_Init0]
Loading user function library: [ResultOutputSolve]...[ResultOutputSolver_Init0]
LoadMesh: Starting
ElmerAsciiMesh: Performing step: 1
LoadMesh: Base mesh name: .
LoadMesh: Reading header info from file: ./mesh.header
InitializeMesh: Number of nodes in mesh: 1157
InitializeMesh: Number of bulk elements in mesh: 585
InitializeMesh: Number of boundary elements in mesh: 379
InitializeMesh: Initial number of max element nodes: 10
ElmerAsciiMesh: Performing step: 2
LoadMesh: Reading nodes from file: ./mesh.nodes
LoadMesh: Performing coordinate mapping
SetMeshDimension: Dimension of mesh is: 3
SetMeshDimension: Max dimension of mesh is: 3
ElmerAsciiMesh: Performing step: 3
LoadMesh: Reading bulk elements from file: ./mesh.elements
ElmerAsciiMesh: Performing step: 4
LoadMesh: Reading boundary elements from file: ./mesh.boundary
LoadMesh: Performing node mapping
ReadTargetNames: Reading names info from file: ./mesh.names
WARNING:: ReadTargetNames: Could not map name to Body nor BC: bnry2
LoadMesh: Remapping bodies
LoadMesh: Minimum initial body index: 1
LoadMesh: Maximum initial body index: 1
LoadMesh: Remapping boundaries
LoadMesh: Minimum initial boundary index: 2
LoadMesh: Maximum initial boundary index: 2
ElmerAsciiMesh: Performing step: 5
ElmerAsciiMesh: Performing step: 6
LoadMesh: Loading mesh done
LoadMesh: Preparing mesh done
LoadMesh: Elapsed REAL time: 0.0069 (s)
MeshStabParams: Computing stabilization parameters
MeshStabParams: Elapsed REAL time: 0.1832 (s)
MAIN: -------------------------------------
AddSolvers: Setting up 2 solvers
AddSolvers: Setting up solver 1: stat elec solver
AddEquationBasics: Using procedure: StatElecSolve StatElecSolver
AddEquationBasics: Setting up solver: stat elec solver
Loading user function library: [StatElecSolve]...[StatElecSolver_Init]
Loading user function library: [StatElecSolve]...[StatElecSolver_bulk]
Loading user function library: [StatElecSolve]...[StatElecSolver]
AddEquationBasics: Creating standard variable: potential
OptimizeBandwidth: ---------------------------------------------------------
OptimizeBandwidth: Computing matrix structure for: stat elec solver...done.
OptimizeBandwidth: Half bandwidth without optimization: 1145
OptimizeBandwidth:
OptimizeBandwidth: Bandwidth Optimization ...done.
OptimizeBandwidth: Half bandwidth after optimization: 415
OptimizeBandwidth: ---------------------------------------------------------
AddSolvers: Setting up solver 2: resultoutput
AddEquationBasics: Using procedure: ResultOutputSolve ResultOutputSolver
AddEquationBasics: Setting up solver: resultoutput
Loading user function library: [ResultOutputSolve]...[ResultOutputSolver_Init]
Loading user function library: [ResultOutputSolve]...[ResultOutputSolver_bulk]
Loading user function library: [ResultOutputSolve]...[ResultOutputSolver]
AddMeshCoordinatesAndTime: Setting mesh coordinates and time
SetInitialConditions: Setting up initial conditions (if any)
MAIN:
MAIN: -------------------------------------
MAIN: Steady state iteration: 1
MAIN: -------------------------------------
MAIN:
SingleSolver: Attempting to call solver
SingleSolver: Solver Equation string is: stat elec solver
StatElecSolve: -------------------------------------
StatElecSolve: STATELEC SOLVER:
StatElecSolve: -------------------------------------
DefaultStart: Starting solver: stat elec solver
StatElecSolve: Starting Assembly...
DefUtils::DefaultDirichletBCs: Setting Dirichlet boundary conditions
EnforceDirichletConditions: No Dirichlet conditions to enforce, exiting!
DefUtils::DefaultDirichletBCs: Dirichlet boundary conditions set
StatElecSolve: Assembly (s) : 7.4670999999999932E-002
DefaultSolve: Solving linear system with default routines
SolveSystem: Solving linear system
SolveLinearSystem: Assuming real valued linear system
SolveSystem: Solution trivially zero!
StatElecSolve: Solve (s) : 1.0199999999993548E-004
StatElecSolve: Result Norm : 0.0000000000000000
StatElecSolve: Relative Change : 0.0000000000000000
StatElecSolve:
DefaultFinish: Finished solver: stat elec solver
Loading user function library: [StatElecSolve]...[StatElecSolver_post]
ComputeNorm: Computing norm of solution
ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.0000000 0.0000000 ) :: stat elec solver
SingleSolver: Attempting to call solver
SingleSolver: Solver Equation string is: resultoutput
ResultOutputSolver: -------------------------------------
ResultOutputSolve: Saving with prefix: case
ResultOutputSolver: Working on mesh: .
ResultOutputSolver: Dimension of mesh is: 3
ResultOutputSolver: Creating list for saving - if not present
CreateListForSaving: Field Variables for Saving
CreateListForSaving: Scalar Field 1: potential
ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format
VtuOutputSolver: Saving results in VTK XML format with prefix: case
VtuOutputSolver: Saving number of partitions: 1
SolverOutputDirectory: Creating directory: .
VtuOutputSolver: Full filename base is: ./case
VtuOutputSolver: Number of active elements 964 out of 964
VtuOutputSolver: Number of geometry nodes 1157 out of 1157
VtuOutputSolver: Total number of geometry nodes to save: 1157
VtuOutputSolver: Total number of dof nodes to save: 1157
VtuOutputSolver: Total number of elements to save: 964
VtuOutputSolver: Writing the vtu file: ./case_t0001.vtu
AscBinWriteInit: Initializing buffered ascii/binary writing
AscBinWriteInit: Writing in binary
AscBinWriteInit: Writing in double precision
AscBinWriteInit: Writing to unit number: 58
AscBinWriteInit: Size of buffer is: 1157
VtuOutputSolver: Writing nodal fields
VtuOutputSolver: Saving variable: potential
VtuOutputSolver: Number of nodal fields written: 1
VtuOutputSolver: Writing elemental fields
VtuOutputSolver: Number of elemental fields written: 0
VtuOutputSolver: Writing coordinates for each used node
VtuOutputSolver: Writing the elemental connectivity data
VtuOutputSolver: Writing nodal fields
VtuOutputSolver: Saving variable: potential
VtuOutputSolver: Writing elemental fields
AscBinWriteFree: Terminating buffered ascii/binary writing
VtuOutputSolver: All done for now
ResultOutputSolver: -------------------------------------
Loading user function library: [ResultOutputSolve]...[ResultOutputSolver_post]
ReloadInputFile: Realoading input file
LoadInputFile: Loading input file:
ElmerSolver: *** Elmer Solver: ALL DONE ***
ElmerSolver: The end
SOLVER TOTAL TIME(CPU,REAL): 0.61 0.50
ELMER SOLVER FINISHED AT: 2020/01/24 20:29:45