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| + | '''phParAdapt''' is a program for doing mesh adaptation in PHASTA. This is either done using [[SCOREC Core]] utilties, or though Simmetrix. |
− | == Download and compile (viz nodes) ==
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− | This sections is inspired from <http://redmine.scorec.rpi.edu/projects/pumi/wiki/Build_Instructions>. | |
− | The SCOREC tools now build against CMake. Only Parma, the PHASTA utilities and phParAdapt still builds against Autotools.
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− | From a termonal, run the following commands:
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− | soft add +cmake
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− | soft add +git
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− | cd ~
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− | mkdir SCOREC.develop
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− | cd SCOREC.develop
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− | git clone ssh://your_username@jumpgate-phasta.colorado.edu/users/mrasquin/SCOREC.develop/compilation
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− | The git command will download these instructions, along with a checkout and compile script for Parma and phParAdapt. The next commands are:
| + | [[phParAdapt-SCOREC]] |
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| + | [[phParAdapt-Simmetrix]] |
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| + | == Subpages == |
| + | {{Special:PrefixIndex/PhParAdapt/}} |
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− | | + | [[Category:Software]] |
− | == Convert geom_ver63.sms to FMDB format==
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− | *This can be done in same directory in which you created geom_ver63.sms. You first need to convert geom_ver63.sms to FMDB format. The executable that will do this is at /users/jema6380/runSimMesh2FMDB.sh
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− | *Make a link from the output file, geom_FMDB.sms, to geom.sms (ln -s geom_FMDB.sms geom.sms)
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− | | |
− | ==Create geom.spj==
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− | *If you have not done so already, create geom.spj. This is not done with Simulation Maker as was done previously, but can simply be done with a vim editor. See the file /users/jema6380/Models/Boeing/BetaScale2CaltechTunnel/CT_Open32_B0_D30_U20/9-A0-24jets/geom.spj for some guidance. As a quick example, if your boundary condition is a velocity of 20 i_hat m/s (comp3) on the inlet face (which let's say has a face number of 1651), then you would enter:
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− | comp3: 1651 2 20 1 0 0
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− | where the "2" designates that we are talking about a face, which has 2 dimensions; the "20" is the speed; and the "1 0 0" is the direction.
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− | *Michel created a script that will make this process faster, which is desirable if you have a large number of faces. If you want to use the script, then first use the executable at /users/jema6380/getFaceList.sh to create a list of faces. From the terminal type:
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− | ./getFaceList.sh "input_file"
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− | where "input_file" is the file that contains the face numbers, which presumably does not already list them consecutively. This might be BLattr.inp, for exmple.
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− | *Now create a new directory called "FacesModelAttributes" and put all of the boundary conditions in .dat files. See the files in /users/jema6380/Models/Boeing/BetaScale2CaltechTunnel/CT_Open32_B0_D30_U20/Simplified_SPJ_file/FacesModelAttributes/ for guidance. Make sure all the .dat files have a name that begins with "attr_" .
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− | *copy /users/jema6380/buildSimplifiedAttrFile.sh to the Simplified_SPJ_file directory and do:
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− | ./buildSimplifiedAttrFile.sh
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− | *This should create a file called result.spj, which contains all of the boundary conditions. cd back to your working mesh directory and make a link from result.spj to geom.spj. Also make a link from result.spj to geomNOIC.spj
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− | ==Partition geom_ver63.sms==
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− | *Make sure you have geom.xmt_txt in your working directory.
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