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...@@ -8,199 +8,255 @@ Please be aware that you will need to change `Dockers settings ...@@ -8,199 +8,255 @@ Please be aware that you will need to change `Dockers settings
<https://github.com/PaddlePaddle/Paddle/issues/627>`_ to make full use <https://github.com/PaddlePaddle/Paddle/issues/627>`_ to make full use
of your hardware resource on Mac OS X and Windows. of your hardware resource on Mac OS X and Windows.
Working With Docker
-------------------
Docker is simple as long as we understand a few basic concepts:
- *image*: A Docker image is a pack of software. It could contain one or more programs and all their dependencies. For example, the PaddlePaddle's Docker image includes pre-built PaddlePaddle and Python and many Python packages. We can run a Docker image directly, other than installing all these software. We can type
.. code-block:: bash
docker images
to list all images in the system. We can also run
.. code-block:: bash
docker pull paddlepaddle/paddle:0.10.0rc2
to download a Docker image, paddlepaddle/paddle in this example,
from Dockerhub.com.
- *container*: considering a Docker image a program, a container is a
"process" that runs the image. Indeed, a container is exactly an
operating system process, but with a virtualized filesystem, network
port space, and other virtualized environment. We can type
.. code-block:: bash
docker run paddlepaddle/paddle:0.10.0rc2
to start a container to run a Docker image, paddlepaddle/paddle in this example.
- By default docker container have an isolated file system namespace,
we can not see the files in the host file system. By using *volume*,
mounted files in host will be visible inside docker container.
Following command will mount current dirctory into /data inside
docker container, run docker container from debian image with
command :code:`ls /data`.
.. code-block:: bash
docker run --rm -v $(pwd):/data debian ls /data
Usage of CPU-only and GPU Images Usage of CPU-only and GPU Images
---------------------------------- ----------------------------------
For each version of PaddlePaddle, we release 2 types of Docker images: development For each version of PaddlePaddle, we release two types of Docker images:
image and production image. Production image includes CPU-only version and a CUDA development image and production image. Production image includes
GPU version and their no-AVX versions. We put the docker images on CPU-only version and a CUDA GPU version and their no-AVX versions. We
`dockerhub.com <https://hub.docker.com/r/paddledev/paddle/>`_. You can find the put the docker images on `dockerhub.com
latest versions under "tags" tab at dockerhub.com. <https://hub.docker.com/r/paddledev/paddle/>`_. You can find the
1. development image :code:`paddlepaddle/paddle:<version>-dev` latest versions under "tags" tab at dockerhub.com
This image has packed related develop tools and runtime environment. Users and 1. Production images, this image might have multiple variants:
developers can use this image instead of their own local computer to accomplish
development, build, releasing, document writing etc. While different version of
paddle may depends on different version of libraries and tools, if you want to
setup a local environment, you must pay attention to the versions.
The development image contains:
- gcc/clang
- nvcc
- Python
- sphinx
- woboq
- sshd
Many developers use servers with GPUs, they can use ssh to login to the server
and run :code:`docker exec` to enter the docker container and start their work.
Also they can start a development docker image with SSHD service, so they can login to
the container and start work.
To run the CPU-only image as an interactive container: - GPU/AVX::code:`paddlepaddle/paddle:<version>-gpu`
- GPU/no-AVX::code:`paddlepaddle/paddle:<version>-gpu-noavx`
- CPU/AVX::code:`paddlepaddle/paddle:<version>`
- CPU/no-AVX::code:`paddlepaddle/paddle:<version>-noavx`
.. code-block:: bash Please be aware that the CPU-only and the GPU images both use the
AVX instruction set, but old computers produced before 2008 do not
support AVX. The following command checks if your Linux computer
supports AVX:
docker run -it --rm paddledev/paddle:<version> /bin/bash .. code-block:: bash
or, we can run it as a daemon container if cat /proc/cpuinfo | grep -i avx; then echo Yes; else echo No; fi
.. code-block:: bash
To run the CPU-only image as an interactive container:
docker run -d -p 2202:22 -p 8888:8888 paddledev/paddle:<version> .. code-block:: bash
and SSH to this container using password :code:`root`: docker run -it --rm paddlepaddle/paddle:0.10.0rc2 /bin/bash
.. code-block:: bash Above method work with the GPU image too -- the recommended way is
using `nvidia-docker <https://github.com/NVIDIA/nvidia-docker>`_.
ssh -p 2202 root@localhost Please install nvidia-docker first following this `tutorial
<https://github.com/NVIDIA/nvidia-docker#quick-start>`_.
An advantage of using SSH is that we can connect to PaddlePaddle from Now you can run a GPU image:
more than one terminals. For example, one terminal running vi and
another one running Python interpreter. Another advantage is that we
can run the PaddlePaddle container on a remote server and SSH to it
from a laptop.
.. code-block:: bash
2. Production images, this image might have multiple variants: nvidia-docker run -it --rm paddlepaddle/paddle:0.10.0rc2-gpu /bin/bash
- GPU/AVX::code:`paddlepaddle/paddle:<version>-gpu`
- GPU/no-AVX::code:`paddlepaddle/paddle:<version>-gpu-noavx`
- CPU/AVX::code:`paddlepaddle/paddle:<version>`
- CPU/no-AVX::code:`paddlepaddle/paddle:<version>-noavx`
Please be aware that the CPU-only and the GPU images both use the AVX 2. development image :code:`paddlepaddle/paddle:<version>-dev`
instruction set, but old computers produced before 2008 do not support
AVX. The following command checks if your Linux computer supports
AVX:
.. code-block:: bash This image has packed related develop tools and runtime
environment. Users and developers can use this image instead of
their own local computer to accomplish development, build,
releasing, document writing etc. While different version of paddle
may depends on different version of libraries and tools, if you
want to setup a local environment, you must pay attention to the
versions. The development image contains:
- gcc/clang
- nvcc
- Python
- sphinx
- woboq
- sshd
Many developers use servers with GPUs, they can use ssh to login to
the server and run :code:`docker exec` to enter the docker
container and start their work. Also they can start a development
docker image with SSHD service, so they can login to the container
and start work.
if cat /proc/cpuinfo | grep -i avx; then echo Yes; else echo No; fi
Train Model Using Python API
----------------------------
If it doesn't, we will use the non-AVX images. Our official docker image provides a runtime for PaddlePaddle
programs. The typical workflow will be as follows:
Above methods work with the GPU image too -- just please don't forget Create a directory as workspace:
to install GPU driver. To support GPU driver, we recommend to use
[nvidia-docker](https://github.com/NVIDIA/nvidia-docker). Run using
.. code-block:: bash .. code-block:: bash
nvidia-docker run -it --rm paddledev/paddle:0.10.0rc1-gpu /bin/bash mkdir ~/workspace
Note: If you would have a problem running nvidia-docker, you may try the old method we have used (not recommended). Edit a PaddlePaddle python program using your favourite editor
.. code-block:: bash .. code-block:: bash
export CUDA_SO="$(\ls /usr/lib64/libcuda* | xargs -I{} echo '-v {}:{}') $(\ls /usr/lib64/libnvidia* | xargs -I{} echo '-v {}:{}')" emacs ~/workspace/example.py
export DEVICES=$(\ls /dev/nvidia* | xargs -I{} echo '--device {}:{}')
docker run ${CUDA_SO} ${DEVICES} -it paddledev/paddle:<version>-gpu
Run the program using docker:
3. Use production image to release you AI application .. code-block:: bash
Suppose that we have a simple application program in :code:`a.py`, we can test and run it using the production image:
```bash docker run --rm -v ~/workspace:/workspace paddlepaddle/paddle:0.10.0rc2 python /workspace/example.py
docker run -it -v $PWD:/work paddle /work/a.py
```
But this works only if all dependencies of :code:`a.py` are in the production image. If this is not the case, we need to build a new Docker image from the production image and with more dependencies installs. Or if you are using GPU for training:
.. code-block:: bash
PaddlePaddle Book nvidia-docker run --rm -v ~/workspace:/workspace paddlepaddle/paddle:0.10.0rc2-gpu python /workspace/example.py
------------------
The Jupyter Notebook is an open-source web application that allows Above commands will start a docker container by running :code:`python
you to create and share documents that contain live code, equations, /workspace/example.py`. It will stop once :code:`python
visualizations and explanatory text in a single browser. /workspace/example.py` finishes.
PaddlePaddle Book is an interactive Jupyter Notebook for users and developers. Another way is to tell docker to start a :code:`/bin/bash` session and
We already exposed port 8888 for this book. If you want to run PaddlePaddle program interactively:
dig deeper into deep learning, PaddlePaddle Book definitely is your best choice.
We provide a packaged book image, simply issue the command: .. code-block:: bash
docker run -it -v ~/workspace:/workspace paddlepaddle/paddle:0.10.0rc2 /bin/bash
# now we are inside docker container
cd /workspace
python example.py
Running with GPU is identical:
.. code-block:: bash .. code-block:: bash
docker run -p 8888:8888 paddlepaddle/book nvidia-docker run -it -v ~/workspace:/workspace paddlepaddle/paddle:0.10.0rc2-gpu /bin/bash
# now we are inside docker container
cd /workspace
python example.py
Then, you would back and paste the address into the local browser:
.. code-block:: text Develop PaddlePaddle or Train Model Using C++ API
---------------------------------------------------
http://localhost:8888/ We will be using PaddlePaddle development image since it contains all
compiling tools and dependencies.
That's all. Enjoy your journey! Let's clone PaddlePaddle repo first:
Development Using Docker .. code-block:: bash
------------------------
Developers can work on PaddlePaddle using Docker. This allows git clone https://github.com/PaddlePaddle/Paddle.git && cd Paddle
developers to work on different platforms -- Linux, Mac OS X, and
Windows -- in a consistent way.
1. Build the Development Docker Image Mount both workspace folder and paddle code folder into docker
container, so we can access them inside docker container. There are
two ways of using PaddlePaddle development docker image:
.. code-block:: bash - run interactive bash directly
git clone --recursive https://github.com/PaddlePaddle/Paddle .. code-block:: bash
cd Paddle
docker build -t paddle:dev .
Note that by default :code:`docker build` wouldn't import source # use nvidia-docker instead of docker if you need to use GPU
tree into the image and build it. If we want to do that, we need docker the docker run -it -v ~/workspace:/workspace -v $(pwd):/paddle paddlepaddle/paddle:0.10.0rc2-dev /bin/bash
development docker image and then run the following command: # now we are inside docker container
.. code-block:: bash - or, we can run it as a daemon container
docker run -v $PWD:/paddle -e "WITH_GPU=OFF" -e "WITH_AVX=ON" -e "TEST=OFF" paddle:dev .. code-block:: bash
# use nvidia-docker instead of docker if you need to use GPU
docker run -d -p 2202:22 -p 8888:8888 -v ~/workspace:/workspace -v $(pwd):/paddle paddlepaddle/paddle:0.10.0rc2-dev /usr/sbin/sshd -D
2. Run the Development Environment and SSH to this container using password :code:`root`:
Once we got the image :code:`paddle:dev`, we can use it to develop .. code-block:: bash
Paddle by mounting the local source code tree into a container that
runs the image:
.. code-block:: bash ssh -p 2202 root@localhost
docker run -d -p 2202:22 -p 8888:8888 -v $PWD:/paddle paddle:dev sshd An advantage is that we can run the PaddlePaddle container on a
remote server and SSH to it from a laptop.
This runs a container of the development environment Docker image When developing PaddlePaddle, you can edit PaddlePaddle source code
with the local source tree mounted to :code:`/paddle` of the from outside of docker container using your favoriate editor. To
container. compile PaddlePaddle, run inside container:
The above :code:`docker run` commands actually starts .. code-block:: bash
an SSHD server listening on port 2202. This allows us to log into
this container with:
.. code-block:: bash WITH_GPU=OFF WITH_AVX=ON WITH_TEST=ON bash /paddle/paddle/scripts/docker/build.sh
ssh root@localhost -p 2202 This builds everything about Paddle in :code:`/paddle/build`. And we
can run unit tests there:
Usually, I run above commands on my Mac. I can also run them on a .. code-block:: bash
GPU server :code:`xxx.yyy.zzz.www` and ssh from my Mac to it:
.. code-block:: bash cd /paddle/build
ctest
my-mac$ ssh root@xxx.yyy.zzz.www -p 2202 When training model using C++ API, we can edit paddle program in
~/workspace outside of docker. And build from /workspace inside of
docker.
3. Build and Install Using the Development Environment PaddlePaddle Book
------------------
Once I am in the container, I can use The Jupyter Notebook is an open-source web application that allows
:code:`paddle/scripts/docker/build.sh` to build, install, and test you to create and share documents that contain live code, equations,
Paddle: visualizations and explanatory text in a single browser.
.. code-block:: bash PaddlePaddle Book is an interactive Jupyter Notebook for users and developers.
We already exposed port 8888 for this book. If you want to
dig deeper into deep learning, PaddlePaddle Book definitely is your best choice.
/paddle/paddle/scripts/docker/build.sh We provide a packaged book image, simply issue the command:
This builds everything about Paddle in :code:`/paddle/build`. And .. code-block:: bash
we can run unit tests there:
.. code-block:: bash docker run -p 8888:8888 paddlepaddle/book
Then, you would back and paste the address into the local browser:
.. code-block:: text
http://localhost:8888/
cd /paddle/build That's all. Enjoy your journey!
ctest
Documentation Documentation
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