Wirawan Purwanto
1 year ago
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CFL3D Installation Notes - ODU Wahab Cluster |
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============================================ |
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About the CFL3D Software |
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------------------------ |
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* Software home page: https://software.nasa.gov/software/LAR-16003-1 |
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* Git repo: https://github.com/nasa/CFL3D |
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* Documentation: https://nasa.github.io/CFL3D/ |
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Installation on ODU Cluster |
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--------------------------- |
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* Base container: intel/2023.0 (ICC + Intel MPI) |
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* Following build instruction: https://nasa.github.io/CFL3D/Cfl3dv6/cfl3dv6_build.html#make |
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* Configuration: (This is called "Installation" stage in their lingo.) |
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From the `build` subfolder, issue: `./Install -noredirect -linux_compiler_flags=Intel` |
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* Build: |
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- `make cfl3d_seq` |
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- `make cfl3d_mpi` |
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- ... and so on. see the help doc issued by `make` with no target. |
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Usage Instruction |
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----------------- |
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(Initially written for Dr. Adem Ibrahim) |
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Dr. Ibrahim, |
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Below is an instruction to run CFL3D on our cluster: |
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The software is currently installed in your home directory at the following path: |
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~/CFL3D/bin |
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**Prerequisites for running CFL3D** |
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This software was built on top of the "intel/2023.0" container, |
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so the first thing you must do is to invoke the following commands on the shell: |
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```bash |
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module load container_env intel/2023.0 |
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``` |
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For serial runs, the main input file MUST be named to `cfl3d.inp`. |
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Assuming that this input file has existed in the current directory, |
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you will run the *serial* CFL3D software in this way: |
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```bash |
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crun.intel ~/CFL3D/bin/cfl3d_seq |
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``` |
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There is an MPI (parallel) version of CFL3D, called `cfl3d_mpi` |
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that has been installed into the the same folder. |
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This is an example of SLURM job script to run CFL3D in serial (sequential) mode: |
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```bash |
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#!/bin/bash |
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#SBATCH --job-name cfl3d |
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#SBATCH --ntasks 1 |
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module load container_env intel/2023.0 |
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crun.intel ~/CFL3D/bin/cfl3d_seq |
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``` |
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CFL3D has a lot of sample calculations located here: |
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https://nasa.github.io/CFL3D/Cfl3dv6/cfl3dv6_testcases.html |
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### Demo: Flat Plate Steady Flow |
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Source: https://nasa.github.io/CFL3D/Cfl3dv6/cfl3dv6_testcases.html#flatplate |
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Here are the commands I invoked: |
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```bash |
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module load container_env intel/2023.0 |
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mkdir -p ~/LIONS/Cfl3dv6/examples |
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cd ~/LIONS/Cfl3dv6/examples |
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# download and unpack the input files |
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wget https://nasa.github.io/CFL3D/Cfl3dv6/2DTestcases/Flatplate/Flatplate.tar.Z |
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tar xvf Flatplate.tar.Z |
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cd Flatplate/ |
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# split the input files and generate the unformatted grid file, |
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# which is grdflat5.bin |
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crun.intel ~/CFL3D/bin/splitter < split.inp_1blk |
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# copy the main input file as "cfl3d.inp" before running: |
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cp grdflat5.inp cfl3d.inp |
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srun crun.intel ~/CLF3D/bin/cfl3d_seq |
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``` |
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Files will be unpacked to a subfolder called `Flatplate`, |
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and this folder is also where the calculation is taking place. |
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The main output file will go to a file named `cfl3d.out`. |
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# FIXME: Run in parallel. Still has issue on Wahab. |
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