Difference between revisions of "OpenFOAM"
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This page describes how to run OpenFOAM in a docker container in [[Red_Cloud|Red Cloud]]. Specifically, these instructions involve the use of OpenFOAM-7 as provided at https://github.com/OpenFOAM/OpenFOAM-7 . This
This page describes how to run OpenFOAM in a docker container in [[Red_Cloud|Red Cloud]]. Specifically, these instructions involve the use of OpenFOAM-7 as provided at https://github.com/OpenFOAM/OpenFOAM-7 . This generally assumes you are familiar with OpenFOAM, and are mostly interested in learning how to run it in a container on Red Cloud.
Revision as of 14:32, 30 October 2020
This page describes how to run OpenFOAM in a docker container in Red Cloud. Specifically, these instructions involve the use of OpenFOAM-7 as provided at https://github.com/OpenFOAM/OpenFOAM-7 . This material generally assumes you are familiar with OpenFOAM, and are mostly interested in learning how to run it in a container on Red Cloud.
To run OpenFOAM, you will need to launch an instance in Red Cloud. Instances come in various "flavors" comprised of different numbers of computational cores and total amount of memory available to those cores. See the Red Cloud Instances documentation for more information. Depending on what sort of computation you want to run in OpenFOAM, you might want to choose a larger flavor with more memory and multiple cores to enable the code to run in parallel, but you will generally want to choose the smallest instance necessary to do your work so as not to use up your subscription more quickly than needed. The last of the tutorials described below is configured to run using 8 processes, so you would need to choose a c8.m64 instance to run that.
Launch a Red Cloud instance using the openfoam-docker-2020-09-17 image. See the Red Cloud Linux instances page on how to launch an instance, and the Images page for more information about images on Red Cloud. You can launch an image either directly from the openfoam-docker-2020-09-17 image page, or by following the general instructions for creating a Red Cloud Linux instance and choosing the openfoam-docker-2020-09-17 image as the source for the new instance.
Run and Attach to Docker Container
1. ssh to the Red Cloud instance
- Because the openfoam-docker image is based upon an Ubuntu image, the username for your ssh command will be
ubuntu, e.g., with a command such as:
ssh -i my_key.pem ubuntu@<IP address of your instance>
- See the documentation on Secure Shell (SSH) for more information on connecting to your instance.
2. Run and attach a docker container containing OpenFOAM image:
docker container run -ti openfoam/openfoam7-paraview56
- After executing this command, you should notice that the command prompt has changed, as the docker container is now running and is providing you with access to a separate bash shell running within the container.
We present here two tutorials that are included in the $FOAM_TUTORIALS directory. Feel free to explore the contents of that directory if you'd like to examine other tutorials.
This example is based on the experimental work of Pitz and Daily (1981). It features a backward facing step. Such a "classic" case is instructive for comparing different turbulence models with respect to the size and shape of the recirculation zone.
- Now that you are running a bash shell within the OpenFOAM docker container, first make a unique working directory and copy the pitzDaily example code into the directory, by executing the following commands within the docker bash shell:
WORK_DIR=$FOAM_RUN-$(whoami)-$(date +%s) echo $WORK_DIR mkdir -p $WORK_DIR cd $WORK_DIR cp -r $FOAM_TUTORIALS/incompressible/simpleFoam/pitzDaily . cd pitzDaily
- Next, let's run the simulations. Execute these commands in sequence. They will run quickly (under a minute), and will produce some printed output.
- If you're curious about where those applications are within the container, you can make use of standard Linux commands to examine the PATH that has been set up within the container, and figure out where these applications are stored:
This is a second example that we will want to run in a separate subdirectory. First execute the following commands, in order to go back to the working directory ($WORK_DIR) and copy the code for the cavity example:
cd $WORK_DIR cp -r $FOAM_TUTORIALS/incompressible/icoFoam/cavity/cavity . cd cavity
- Now run the simulations:
This is a more computationally challenging example, simulating flow around a motorbike with a rider on it. This example is configured to run using 8 processes (by dividing up the problem into 8 subdomains), which we can run on Red Cloud on a c8.m64 instance (or larger). The tutorial runs for approximately 30 minutes on 8 cores, so you might not want to run this example unless you'd like to examine the output, or do something similar by adapting this example. Like the other tutorials, we will want to run this in a separate subdirectory. First execute the following commands, in order to go back to the working directory ($WORK_DIR) and copy the code for the motorBike example:
cd $WORK_DIR cp -r $FOAM_TUTORIALS/incompressible/pisoFoam/LES/motorBike . cd motorBike
- Now run the simulation:
- Once you are finished running within your docker container, you can issue the command
exitto terminate the bash shell running within the container and return to the outer bash shell running in your Red Cloud instance.
- If you are done using your instance for the time being, you can logout (
exit) and then shelve your instance so that you do not continue to accrue charges to your Red Cloud subscription. See our documentation for more information about managing your subscription.