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Introduction
"Project Jupyter is a non-profit, open-source project, born out of the IPython Project in 2014 as it evolved to support interactive data science and scientific computing across all programming languages."[1]
"The Jupyter Notebook is an open-source web application that allows you to create and share documents that contain live code, equations, visualizations and narrative text."[2]
You can run Jupyter Notebook on a compute node (highly recommended) or on a login node (not recommended). Note that login nodes impose various user- and process-based limits, so applications running there may be killed if they consume too much CPU time or memory. To use a compute node you will have to submit a job requesting the number of CPUs (and optionally GPUs), the amount of memory, and the run time. Here, we give instructions to submit a Jupyter Notebook job.
Some regional partners provide a web portal named JupyterHub so that users do not have to create their own Jupyter Notebook setup. To learn more, visit the JupyterHub wiki page.
Installing Jupyter Notebook
These instructions install Jupyter Notebook with the pip
command in a Python virtual environment in your home directory. The following instructions are for Python 3.5.2, but you can also install the application for a different version by loading a different Python module.
- Load the Python module.
-
[name@server ~]$ module load python/3.5.2
-
- Create a new Python virtual environment.
-
[name@server ~]$ virtualenv $HOME/jupyter_py3
-
- Activate your newly created Python virtual environment.
-
[name@server ~]$ source $HOME/jupyter_py3/bin/activate
-
- Install Jupyter Notebook in your new virtual environment.
-
(jupyter_py3)[name@server $] pip install jupyter
-
- In the virtual environment, create a wrapper script that launches Jupyter Notebook.
-
(jupyter_py3)[name@server $] echo -e '#!/bin/bash\nunset XDG_RUNTIME_DIR\njupyter notebook --ip $(hostname -f) --no-browser' > $VIRTUAL_ENV/bin/notebook.sh
-
- Finally, make the script executable.
-
(jupyter_py3)[name@server $] chmod u+x $VIRTUAL_ENV/bin/notebook.sh
-
Installing extensions
Extensions allow you to add functionalities and modify the application’s user interface.
Jupyter Lmod
Jupyter Lmod is an extension that allows you to interact with environment modules before launching kernels. The extension uses the Lmod's Python interface to accomplish module-related tasks like loading, unloading, saving a collection, etc.
(jupyter_py3)[name@server $] pip install jupyterlmod
(jupyter_py3)[name@server $] jupyter nbextension install --py jupyterlmod --sys-prefix
(jupyter_py3)[name@server $] jupyter nbextension enable --py jupyterlmod --sys-prefix
(jupyter_py3)[name@server $] jupyter serverextension enable --py jupyterlmod --sys-prefix
RStudio Launcher
Jupyter Notebook can start an RStudio session that uses Jupyter Notebook's token authentication system. This extension adds an RStudio Session button to the Jupyter Notebook New menu.
(jupyter_py3)[name@server $] pip install nbserverproxy
(jupyter_py3)[name@server $] pip install git+https://github.com/cmd-ntrf/nbrsessionproxy
(jupyter_py3)[name@server $] jupyter serverextension enable --py nbserverproxy --sys-prefix
(jupyter_py3)[name@server $] jupyter nbextension install --py nbrsessionproxy --sys-prefix
(jupyter_py3)[name@server $] jupyter nbextension enable --py nbrsessionproxy --sys-prefix
(jupyter_py3)[name@server $] jupyter serverextension enable --py nbrsessionproxy --sys-prefix
Activating the environment
Once you have installed Jupyter Notebook, you need only reload the Python module associated with your environment when you log into the cluster.
[name@server ~]$ module load python/3.5.2
Then, activate the virtual environment in which you have installed Jupyter Notebook.
[name@server ~]$ source $HOME/jupyter_py3/bin/activate
RStudio Server (optional)
If you have installed the RStudio launcher extension and wish to use it, you will have to load the RStudio Server module.
(jupyter_py3)[name@server $] module load rstudio-server
Starting Jupyter Notebook
To start the application, submit an interactive job. Adjust the parameters based on your needs. See Running jobs for more information.
[name@server ~]$ salloc --time=1:0:0 --ntasks=1 --cpus-per-task=2 --mem-per-cpu=1024M --account=def-yourpi srun notebook.sh
salloc: Granted job allocation 1422754
[I 14:07:08.661 NotebookApp] Serving notebooks from local directory: /home/fafor10
[I 14:07:08.662 NotebookApp] 0 active kernels
[I 14:07:08.662 NotebookApp] The Jupyter Notebook is running at:
[I 14:07:08.663 NotebookApp] http://cdr544.int.cedar.computecanada.ca:8888/?token=7ed7059fad64446f837567e32af8d20efa72e72476eb72ca
[I 14:07:08.663 NotebookApp] Use Control-C to stop this server and shut down all kernels (twice to skip confirmation).
[C 14:07:08.669 NotebookApp]
Copy/paste this URL into your browser when you connect for the first time,
to login with a token:
http://cdr544.int.cedar.computecanada.ca:8888/?token=7ed7059fad64446f837567e32af8d20efa72e72476eb72ca
Connecting to Jupyter Notebook
To access Jupyter Notebook running on a compute node from your web browser, you will need to create an SSH tunnel between the cluster and your computer since the compute nodes are not directly accessible from the Internet.
From Linux or MacOS X
On a Linux or MacOS X system, we recommend using the sshuttle Python package.
On your computer, open a new terminal window and run the following sshuttle command to create the tunnel.
[name@my_computer $] sshuttle --dns -Nr userid@machine_name
Then, copy and paste the provided URL into your browser. In the above example, this would be
http://cdr544.int.cedar.computecanada.ca:8888/?token=7ed7059fad64446f837567e32af8d20efa72e72476eb72ca
From Windows
An SSH tunnel can be created from Windows using MobaXTerm as follows.
Open two sessions in MobaXTerm.
- Session 1 should be a connection to a cluster. Follow the instructions in section Starting Jupyter Notebook.
- Session 2 should be a local terminal in which we will set up the SSH tunnel. Run the following command, substituting the node name from the URL you received in Session 1. Follow the instructions in section Starting Jupyter Notebook.
[name@my_computer ]$ ssh -L 8888:cdr544.int.cedar.computecanada.ca:8888 someuser@cedar.computecanada.ca
This command performs local port forwarding (-L). It forwards local port 8888 to cdr544.int.cedar.computecanada.ca:8888
, which is the host name given when Jupyter Notebook was started.
Open your browser and go to
http://localhost:8888/?token=7ed7059fad64446f837567e32af8d20efa72e72476eb72ca
Replace the token in this example with the one given to you in Session 1. You can also type http://localhost:8888
and there will be a prompt asking you for the token, which you can then copy and paste.
Shutting down Jupyter Notebook
You can shut down the Jupyter Notebook server before the walltime limit by pressing Ctrl-C twice in the terminal that launched the interactive job.
If you used MobaXterm to create a tunnel, press Ctrl-D in Session 2 to shut down the tunnel.
Adding kernels
It is possible to add kernels for other programmming languages or Python versions different than the one running the Jupyter Notebook. Refer to Making kernels for Jupyter to learn more.
The installation of a new kernel is done in two steps.
- Installation of the packages that will allow the language interpreter to communicate with Jupyter Notebook.
- Creation of a file that will indicate to Jupyter Notebook how to initiate a communication channel with the language interpreter. This file is called a kernel spec file.
Each kernel spec file has to be created in its own subfolder inside a folder in your home directory with the following path ~/.local/share/jupyter/kernels
. Jupyter Notebook does not create this folder, so the first step in all cases is to create it. You can use the following command.
[name@server ~]$ mkdir -p ~/.local/share/jupyter/kernels
In the following sections, we provide a few examples of the kernel installation procedure.
Anaconda
Before installing an Anaconda kernel, make sure you have read the documentation and installed Anaconda.
- Load the Anaconda module.
[name@server ~]$ module load miniconda3
- Optional: Activate a specific conda virtual environment.
[name@server ~]$ source activate <your env>
- Install the
ipykernel
library.[name@server ~]$ conda install ipykernel
- Generate the kernel spec file.
[name@server ~]$ python -m ipykernel install --user --name <unique identifier without white space> --display-name "My Anaconda 3 Kernel"
- Optional: Deactivate the virtual environment.
[name@server ~]$ source deactivate
For more information, see the ipykernel documentation.
Julia
- Load the Julia module.
[name@server ~]$ module load julia
- Activate the Jupyter Notebook virtual environment.
[name@server ~]$ source $HOME/jupyter_py3/bin/activate
- Install IJulia.
[name@server ~]$ echo 'Pkg.add("IJulia")' | julia
For more information, see the IJulia documentation.
R
- Load the R module.
[name@server ~]$ module load r
- Activate the Jupyter Notebook virtual environment.
[name@server ~]$ source $HOME/jupyter_py3/bin/activate
- Install the R kernel dependencies.
[name@server ~]$ R -e "install.packages(c('crayon', 'pbdZMQ', 'devtools'), repos='http://cran.us.r-project.org')"
- Install the R kernel.
[name@server ~]$ R -e "devtools::install_github(paste0('IRkernel/', c('repr', 'IRdisplay', 'IRkernel')))"
- Install the R kernel spec file.
[name@server ~]$ R -e "IRkernel::installspec()"
For more information, see the IRKernel documentation.