Difference between revisions of "PhParAdapt/Simmetrix"

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(Initial Notes to User)
(Initial Notes to User)
Line 5: Line 5:
 
* To date, the steps described herein have only been tried with the following restrictions:
 
* To date, the steps described herein have only been tried with the following restrictions:
 
** Tetrahedral elements
 
** Tetrahedral elements
*** Extruded element types apparently can be used but require removal of any extrusion constraints in the mesh. Below are some incomplete details regarding that process for reference. See  [[#Removal_of_Extrusion_Constraint Removal of Extrusion Constraint]]
+
*** Extruded element types apparently can be used but require removal of any extrusion constraints in the mesh. Below are some incomplete details regarding that process for reference. See  [[#Removal_of_Extrusion_Constraint |Removal of Extrusion Constraint]]
 
** Serial case
 
** Serial case
 
** Geometry created using SimModeler7.0-190626
 
** Geometry created using SimModeler7.0-190626

Revision as of 11:59, 28 April 2021

The following page provides details for performing mesh adaptation using the PhParAdapt tool with Simmetrix routines.

Initial Notes to User

  • The solution migration feature is currently broken and thus requires other means for transferring the solution to new meshes that are created from PhParAdapt (e.g. solution interpolation in Paraview)
  • To date, the steps described herein have only been tried with the following restrictions:
    • Tetrahedral elements
      • Extruded element types apparently can be used but require removal of any extrusion constraints in the mesh. Below are some incomplete details regarding that process for reference. See Removal of Extrusion Constraint
    • Serial case
    • Geometry created using SimModeler7.0-190626
    • Adaptation using 6th entry of errors field

Adaptation Process

Creating Initial Restart and Error Files

Beginning inside of the 1-1-Chef directory,

mkdir 1-1-phParAdapt
cd 1-1-phParAdapt 

Create soft links to the geom files above the 1-1-Chef directory,

ln -s ../../geom.smd
ln -s ../../geom.sms
ln -s ../../geom_nat.x_t 

Create an adapt.inp file similar

Notes on Folder Structure

Below is an overview of the folder structure to reference during the adaptation process:

  1. [ geom.smd, geom.sms, geom_nat.x_t ]
  2. 1-1-Chef
    1. 1-1-phParAdapt
      1. adapt.inp
      2. run_phParAdapt.sh
      3. 1-procs_case
        1. geombc.dat.1
        2. restart.<#>.1
      4. mesh_parts.sms
      5. A1-phParAdapt
        1. restart.<#>.1
        2. errors.<#>.1
        3. [geom.smd, geom.sms, geom_nat.x_t, parts.sms]
        4. adapt.inp
        5. <#> ( step number directory )
          1. mesh_parts.sms
          2. 1-1-phParAdapt
            1. [geom.smd, geom.sms, geom_nat.x_t]
            2. adapt.inp
            3. 1-procs_case ( restart files with adapted mesh )

Removal of Extrusion Constraint

Riccardo has used a procedure in the past to remove the extrusion constraint from a mesh that enabled adaptation to be performed on extrusion-type elements.

The following directory contains an example of this process: /projects/tools/Models/NASAWingBodyJunction/RajMeshFine/Mesh/1-1-phParAdapt/RemExtrusion/

The executable that is called for removal of the constraint is a part of SCOREC-core, found at <path/to/SCOREC-core/build/dir>/test/rm_extrusion and the source code, in case edits are required, is found at <path/to/SCOREC-core/source/dir>/core/test/rm_extrusion.cc