Finite Element Analysis software for modeling, visualization, and best-in-class implicit and explicit dynamics FEA. - Homepage: http://www.3ds.com/products-services/simulia/products/abaqus/
Abaqus is open to all HPRC users when used within the terms of our license agreement. If you have particular concerns about whether specific usage falls within the TAMU HPRC license, please send an email to the HPRC Helpdesk.
Loading the Module
To see all versions of Abaqus available on Ada:
module spider ABAQUS
To load the default Abaqus module on Ada:
module load ABAQUS
To load a particular version of Abaqus on Ada (Example: 6.13.5):
module load ABAQUS/6.13.5-linux-x86_64
Usage of Abaqus is restricted by the number of available tokens. One instance of Abaqus cae requires one (1) cae token. An Abaqus job requires tokens based on the number of cores the job will use. The formula for calculating licenses that are needed is:
int(5 * (cores)^0.422)
To see the number of available tokens, use the License Checker Tool.
Usage on the Login Nodes
Please limit interactive processing to short, non-intensive usage. Use non-interactive batch jobs for resource-intensive and/or multiple-core processing. Users are requested to be responsible and courteous to other users when using software on the login nodes.
The most important processing limits here are:
- ONE HOUR of PROCESSING TIME per login session.
- EIGHT CORES per login session on the same node or (cumulatively) across all login nodes.
Anyone found violating the processing limits will have their processes killed without warning. Repeated violation of these limits will result in account suspension.
Note: Your login session will disconnect after one hour of inactivity.
Usage on the Compute Nodes
Non-interactive batch jobs on the compute nodes allows for resource-demanding processing. Non-interactive jobs have higher limits on the number of cores, amount of memory, and runtime length.
For instructions on how to create and submit a batch job, please see the appropriate wiki page for each respective cluster:
A single core example, no user subroutine:
#BSUB -J AbaqusJob # sets the job name to AbaqusJob. #BSUB -L /bin/bash # uses the bash login shell to initialize the job's execution environment. #BSUB -W 2:00 # sets to 2 hours the job's runtime wall-clock limit. #BSUB -n 1 # assigns 1 core for execution. #BSUB -R "span[ptile=1]" # assigns 1 core per node. #BSUB -R "rusage[mem=5000]" # reserves 5000MB per process/CPU for the job (5GB * 1 Core = 5GB per node) #BSUB -M 5000 # sets to 5,000MB (~5GB) the per process enforceable memory limit. #BSUB -o Abaqus.%J # directs the job's standard output to Abaqus.jobid ## Load the module module load ABAQUS ## Launch Abaqus with proper parameters abaqus memory="5GB" cpus=1 job=JobName input=InputFile.inp
A multicore (10 core) example, with a user subroutine:
#BSUB -J AbaqusJob # sets the job name to AbaqusJob. #BSUB -L /bin/bash # uses the bash login shell to initialize the job's execution environment. #BSUB -W 2:00 # sets to 2 hours the job's runtime wall-clock limit. #BSUB -n 10 # assigns 10 cores for execution. #BSUB -R "span[ptile=10]" # assigns 10 cores per node. #BSUB -R "rusage[mem=5000]" # reserves 5000MB per process/CPU for the job (5GB * 10 Core = 50GB per node) #BSUB -M 5000 # sets to 5,000MB (~5GB) the per process enforceable memory limit. #BSUB -o Abaqus.%J # directs the job's standard output to Abaqus.jobid ## Load the modules module load intel module load ABAQUS ## Launch Abaqus with proper parameters abaqus memory="50GB" cpus=10 job=JobName input=InputFile.inp mp_mode=mpi user=FileName.for
Usage on the VNC Nodes
The VNC nodes allow for usage of the a graphical user interface (GUI) without disrupting other users.
VNC jobs and GUI usage do come with restrictions. All VNC jobs are limited to a single node (Terra: 28 cores/64GB). There are fewer VNC nodes than comparable compute nodes.
For more information, including instructions, on using software on the VNC nodes, please visit our Terra Remote Visualization page.
Frequently Asked Questions
Q: What versions of ABAQUS are available and which should I use?
A: You can see which versions of ABAQUS we have available by using the module spider command as shown above. If you do not need to use a specific version of ABAQUS, we generally recommend that you use the newest version that we provide. Remember that it is always recommended to load a specific version of a module instead of the default version. This is because default versions will change which might cause problems in the future. It is always best to know exactly which module you are using.
Q: How do I open the ABAQUS GUI?
A: Using the ABAQUS GUI (or almost any GUI on our clusters) for anything more than light editing requires the use of a VNC job. For information on how to use a VNC job, please see our Remote Visualization page.
- Step 1: Start a VNC session with the instructions from the page linked above.
- Step 2: Load the ABAQUS module as shown above.
- Step 3: Launch the ABAQUS GUI as shown below:
vglrun abaqus cae
NOTE: We always recommend that you do not submit jobs with the ABAQUS GUI unless they take only seconds to run. Using the GUI to submit jobs can cause a lot of issues and often takes much longer than running a job non-interactively.
Q: What is the difference between an interactive and a non-interactive job?
A: An interactive job is one which is done in the GUI with interaction from the user (even if only to start the job). A non-interactive job is a job that the user gives to the cluster, most often with a job file, which is then scheduled and run by the batch system without the GUI or any further interaction from the user. A non-interactive job often runs faster while using less resources and can more easily be customized to meet the user's needs. A non-interactive job uses the ABAQUS solver and creates exactly the same files as it would if the GUI were used. You will also still be able to view the results of the analysis as though the job were run with the GUI.
Q: How do I submit a non-interactive job?
A: You will need a batch job file and your ABAQUS input file (.inp) in order to submit a job. Examples of ABAQUS job files are given above. Please use these only as guidelines, you will need to customize some requirements to meet your needs.
- Step 1: Generate the ABAQUS input file (.inp). This can be done in the GUI by first creating a job and then, in the top toolbar, going to Job->Write Input->JobName.
- Step 2: Create a batch job file with the appropriate parameters.
- Step 3: Submit the job with bsub.
bsub < JobFile
Q: How much memory do I need?
Q: How do I set the memory?
Q: How long will my job take?
If you are using a single core, in general, you can expect that an ABAQUS job on Ada will take approximately the same time as it would on a regular workstation.
Q: How many cores should I use?
A: ABAQUS is a software that is not the best when it comes to parallelization. Unless you have written your code specifically to be parallelized, ABAQUS generally will not parallelize well. It is possible that you could experience some speed up from running your job on multiple cores, and it is worth trying if your code is thread-safe. However, if you are running a small job (which takes less than 2 hours to complete), it is probably not worth the trouble of submitting on multiple cores. If you have a job that will run for longer, you might see a significant difference when using multiple cores. In general, for smaller jobs, use fewer cores, and for larger jobs, use more cores.
NOTE: Do not try to run your job on multiple cores if ANY part of your code is not thread safe.
Q: How do I use ABAQUS to do [blank]?
Q: Where can I find ABAQUS documentation?