Difference between revisions of "Login to SciComp GPUs"
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<ol> | <ol> | ||
| − | <li> Setting up the software environment seems to be more easily done using conda. We need to first log into jlab common environment with the below ssh command. </ | + | <li> <b> Setting up the software environment seems to be more easily done using conda. We need to first log into jlab common environment with the below ssh command. </b></li> |
| − | < | ||
ssh login.jlab.org | ssh login.jlab.org | ||
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You'll be prompted to enter your Jlab account password. <br> | You'll be prompted to enter your Jlab account password. <br> | ||
| − | <li> We need to log into ifarm with the following ssh command </ | + | <li><b> We need to log into ifarm with the following ssh command </b></li> |
| − | < | ||
ssh ifarm190X | ssh ifarm190X | ||
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In 190X, X can either be 1 or 2. | In 190X, X can either be 1 or 2. | ||
<br> | <br> | ||
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| − | <li> Setting up Python environment </li> | + | <li> <b> Setting up Python environment (Needs to be done just once!) </b></li> |
<ul> | <ul> | ||
<li>The software must be set up using a computer other than sciml190X since it needs a level of outside network access not available there. </li> | <li>The software must be set up using a computer other than sciml190X since it needs a level of outside network access not available there. </li> | ||
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<li>If ~/.conda already exists, please delete it since we are going to create a symbolic link named ~/.conda </li> | <li>If ~/.conda already exists, please delete it since we are going to create a symbolic link named ~/.conda </li> | ||
<li> Create a folder in your work directory that can be linked to "~/.conda". For me, I created a folder named <i>condaenv</i> in "/work/halld2/home/kishan/". You can simply achieve this by running the following commands </li> | <li> Create a folder in your work directory that can be linked to "~/.conda". For me, I created a folder named <i>condaenv</i> in "/work/halld2/home/kishan/". You can simply achieve this by running the following commands </li> | ||
| − | |||
mkdir /work/<your hall>/home/<your name>/condaenv | mkdir /work/<your hall>/home/<your name>/condaenv | ||
ln -s /work/<your hall>/home/<your name>/condaenv ~/.conda | ln -s /work/<your hall>/home/<your name>/condaenv ~/.conda | ||
| − | |||
For me it is "ln -s /work/halld2/home/kishan/condaenv ~/.conda" | For me it is "ln -s /work/halld2/home/kishan/condaenv ~/.conda" | ||
<li>You can check if symbolic link is set up by running </li> | <li>You can check if symbolic link is set up by running </li> | ||
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| − | <li> Reserving the GPUs </li> | + | <li><b> Reserving the GPUs </b></li> |
<ul> | <ul> | ||
<li> To reserve 2 GPU cards</li> | <li> To reserve 2 GPU cards</li> | ||
Revision as of 16:44, 27 August 2020
The following is how to use one of the ML scicomp machines that has 4 Titan RTX GPU cards installed.
Steps:
- Setting up the software environment seems to be more easily done using conda. We need to first log into jlab common environment with the below ssh command. ssh login.jlab.org You'll be prompted to enter your Jlab account password.
- We need to log into ifarm with the following ssh command ssh ifarm190X In 190X, X can either be 1 or 2.
- Setting up Python environment (Needs to be done just once!)
- The software must be set up using a computer other than sciml190X since it needs a level of outside network access not available there.
- We recommend using Conda to manage your python packages and environments.
- Also, the size of the installation is large enough that it won't fit easily in you home directory. Conda likes to install things in ~/.conda so that must be a link to some larger disk.
- If ~/.conda already exists, please delete it since we are going to create a symbolic link named ~/.conda
- Create a folder in your work directory that can be linked to "~/.conda". For me, I created a folder named condaenv in "/work/halld2/home/kishan/". You can simply achieve this by running the following commands mkdir /work/<your hall>/home/<your name>/condaenv ln -s /work/<your hall>/home/<your name>/condaenv ~/.conda For me it is "ln -s /work/halld2/home/kishan/condaenv ~/.conda"
- You can check if symbolic link is set up by running ls -la you will see one of the entries as .conda -> /work/<your hall>/home/<your name>/condaenv
- Now run the following commands to load Anaconda3 and create a virtual environment named tf-gpu with tensorflow-gpu, cudatoolkit, keras and numpy installed. bash source /etc/profile.d/modules.sh module use /apps/modulefiles module load anaconda3/4.5.12 conda create -n tf-gpu tensorflow-gpu cudatoolkit keras numpy
- Activate the tf-gpu virtual environment. conda activate tf-gpu
- Reserving the GPUs
- To reserve 2 GPU cards salloc --gres gpu:TitanRTX:2 --partition gpu --nodes 1 srun --pty bash If you with to reserve n GPU nodes, change above command to gpu:TitanRTX:n
- Now activate your tf virtual environment by running below commands. source /etc/profile.d/modules.sh module use /apps/modulefiles module load anaconda3/4.5.12 conda activate tf-gpu
- If you log out, of both the srun and salloc command, then the job should complete and the resource should be released. You can check this by just running the sacct command to see a list of your jobs and if there are any running: sacct
- If there is a running job that you want to kill so the resource is released, cancel the jobid via: scancel jobid
- To see available devices: nvidia-smi
- To see which devices were assigned to you do this: printenv CUDA_VISIBLE_DEVICES