168 lines
6.1 KiB
Markdown
168 lines
6.1 KiB
Markdown
# GPU-Jupyter
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#### Leverage Jupyter Notebooks with the power of your NVIDIA GPU and perform GPU calculations using Tensorflow and Pytorch in collaborative notebooks.
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First of all, thanks to [hub.docker.com/u/jupyter](https://hub.docker.com/u/jupyter)
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for creating and maintaining a robost Python, R and Julia toolstack for Data Analytics/Science
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applications. This project uses the NVIDIA CUDA image as a basis image and installs their
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toolstack on top of it to enable GPU calculations in the Jupyter notebooks.
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## Contents
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1. [Requirements](#requirements)
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2. [Quickstart](#quickstart)
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3. [Deployment](#deployment-in-the-docker-swarm)
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4. [Configuration](#configuration)
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## Requirements
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1. Install [Docker](https://www.docker.com/community-edition#/download) version **1.10.0+**
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and [Docker Compose](https://docs.docker.com/compose/install/) version **1.6.0+**.
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2. A NVIDIA GPU
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3. Get access to use your GPU via the CUDA drivers, check out this
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[medium article](https://medium.com/@christoph.schranz/set-up-your-own-gpu-based-jupyterlab-e0d45fcacf43).
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4. Clone the Repository:
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```bash
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git clone https://github.com/iot-salzburg/gpu-jupyter.git
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cd gpu-jupyter
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```
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## Quickstart
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First of all, it is necessary to generate the `Dockerfile` based on the latest toolstack of
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[hub.docker.com/u/jupyter](https://hub.docker.com/u/jupyter).
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As soon as you have access to your GPU locally (it can be tested via a Tensorflow or PyTorch
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directly on the host node), you can run these commands to start the jupyter notebook via
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docker-compose (internally):
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```bash
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./generate_Dockerfile.sh
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docker build -t gpu-jupyter .build/
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docker run -d -p [port]:8888 gpu-jupyter
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```
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Alternatively, you can configure the environment in `docker-compose.yml` and run this to deploy
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the `GPU-Jupyter` via docker-compose (under-the-hood):
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```bash
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./generate_Dockerfile.sh
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./start-local.sh
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```
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Both options will run *GPU-Jupyter* by default on [localhost:8888](http://localhost:8888) with the default
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password `asdf`. The general usage of the `docker-compose` variant is:
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```bash
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./start-local.sh -p [port] # port must be an integer with 4 or more digits.
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```
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With these commands we can see if everything worked well:
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```bash
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docker-compose ps
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docker logs [service-name]
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```
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In order to stop the local deployment, run:
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```bash
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./stop-local.sh
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```
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## Deployment in the Docker Swarm
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A Jupyter instance often requires data from other services.
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If that data-source is containerized in Docker and sharing a port for communication shouldn't be allowed, e.g., for security reasons,
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then connecting the data-source with *GPU-Jupyter* within a Docker Swarm is a great option! \
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### Set up Docker Swarm and Registry
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This step requires a running [Docker Swarm](https://www.youtube.com/watch?v=x843GyFRIIY) on a cluster or at least on this node.
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In order to register custom images in a local Docker Swarm cluster,
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a registry instance must be deployed in advance.
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Note that the we are using the port 5001, as many services use the default port 5000.
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```bash
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sudo docker service create --name registry --publish published=5001,target=5000 registry:2
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curl 127.0.0.1:5001/v2/
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```
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This should output `{}`. \
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Afterwards, check if the registry service is available using `docker service ls`.
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### Configure the shared Docker network
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Additionally, *GPU-Jupyter* is connected to the data-source via the same *docker-network*. Therefore, This network must be set to **attachable** in the source's `docker-compose.yml`:
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```yml
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services:
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data-source-service:
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...
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networks:
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- default
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- datastack
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...
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networks:
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datastack:
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driver: overlay
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attachable: true
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```
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In this example,
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* the docker stack was deployed in Docker swarm with the name **elk** (`docker stack deploy ... elk`),
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* the docker network has the name **datastack** within the `docker-compose.yml` file,
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* this network is configured to be attachable in the `docker-compose.yml` file
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* and the docker network has the name **elk_datastack**, see the following output:
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```bash
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sudo docker network ls
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# ...
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# [UID] elk_datastack overlay swarm
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# ...
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```
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The docker network name **elk_datastack** is used in the next step as a parameter.
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### Start GPU-Jupyter in Docker Swarm
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Finally, *GPU-Jupyter* can be deployed in the Docker Swarm with the shared network, using:
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```bash
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./generate_Dockerfile.sh
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./add-to-swarm.sh -p [port] -n [docker-network] -r [registry-port]
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# e.g. ./add-to-swarm.sh -p 8848 -n elk_datastack -r 5001
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```
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where:
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* **-p:** port specifies the port on which the service will be available.
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* **-n:** docker-network is the name of the attachable network from the previous step, e.g., here it is **elk_datastack**.
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* **-r:** registry port is the port that is published by the registry service, see [Set up Docker Swarm and Registry](set-up-docker-swarm-and-registry).
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Now, *gpu-jupyter* will be accessable here on [localhost:8848](http://localhost:8848) with the default password `asdf` and shares the network with the other data-source, i.e., all ports of the data-source will be accessable within *GPU-Jupyter*, even if they aren't routed it the source's `docker-compose` file.
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Check if everything works well using:
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```bash
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sudo docker service ps gpu_gpu-jupyter
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docker service ps gpu_gpu-jupyter
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```
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In order to remove the service from the swarm, use:
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```bash
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./remove-from-swarm.sh
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```
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## Configuration
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Please set a new password using `src/jupyter_notebook_config.json`.
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Therefore, hash your password in the form (password)(salt) using a sha1 hash generator, e.g., the sha1 generator of [sha1-online.com](http://www.sha1-online.com/).
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The input with the default password `asdf` is appended by a arbitrary salt `e49e73b0eb0e` to `asdfe49e73b0eb0e` and should yield the hash string as shown in the config below.
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**Never give away your own unhashed password!**
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Then update the config file as shown below and restart the service.
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```json
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{
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"NotebookApp": {
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"password": "sha1:e49e73b0eb0e:32edae7a5fd119045e699a0bd04f90819ca90cd6"
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}
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}
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```
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