Mozhgan K. Chimeh c357a6b0b5 nways profiler path fix | преди 2 години | |
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nways_labs | преди 2 години | |
Dockerfile | преди 3 години | |
Dockerfile_python | преди 3 години | |
README.md | преди 3 години | |
Singularity | преди 3 години | |
Singularity_python | преди 3 години |
This repository contains mini applications for GPU Bootcamps (Tested on NVIDIA driver 440.82). This bootcamp comprises N-Ways to GPU programming implemented with the following programming approaches:
C programming language
Fortran programming language
Python programming language
We showcase above ways using mini applications in domains like Molecular Dynamics, Computational Fluid Dynamics etc.
The target audience for this bootcamp are researchers/graduate students and developers who are interested in learning about various ways of GPU programming to accelerate their scientific applications. Basic experience with C/C++ or Python or Fortran programming is needed. No GPU programming knowledge is required.
N-Ways bootcamp is designed to be modular and the participants can choose one of the ways to go through the contents in this bootcamp:
Individual labs in the bootcamp take 1 hour each and based on path chosen total Bootcamp can take approximate 8 hours.
To run this tutorial you will need a machine with NVIDIA GPU.
To start with, you will have to build a Docker or Singularity container.
To build a docker container for C & Fortran, run:
sudo docker build -t <imagename>:<tagnumber> .
For instance :
sudo docker build -t myimage:1.0 .
While in the case of Python, you have to specify the dockerfile name using flag "-f", therefore run:
sudo docker build -f <dockerfile name> -t <imagename>:<tagnumber> .
For example :
sudo docker build -f Dockerfile_python -t myimage:1.0 .
For C, Fortran, and Python, the code labs have been written using Jupyter lab and a Dockerfile has been built to simplify deployment. In order to serve the docker instance for a student, it is necessary to expose port 8000 from the container. For example, the following command would expose port 8000 inside the container as port 8000 on the lab machine:
sudo docker run --rm -it --gpus=all -p 8888:8888 myimage:1.0
When this command is run, you can browse to the serving machine on port 8888 using any web browser to access the labs. For instance, from if they are running on the local machine the web browser should be pointed to http://localhost:8888. The --gpus
flag is used to enable all
NVIDIA GPUs during container runtime. The --rm
flag is used to clean an temporary images created during the running of the container. The -it
flag enables killing the jupyter server with ctrl-c
. This command may be customized for your hosting environment.
Then, inside the container launch the Jupyter lab assigning the port you opened:
jupyter-lab --ip 0.0.0.0 --port 8888 --no-browser --allow-root
Once inside the container, open the jupyter lab in browser: http://localhost:8888, and start the lab by clicking on the START_nways.ipynb
notebook.
To build the singularity container for C & Fortran, run:
singularity build nways.simg Singularity
While in the case of Python, run:
singularity build nways.simg Singularity_python
Thereafter, for C, Fortran, and Python, copy the files to your local machine to make sure changes are stored locally:
singularity run nways.simg cp -rT /labs ~/labs
Then, run the container:
singularity run --nv nways.simg jupyter-lab --notebook-dir=~/labs
Once inside the container, open the jupyter lab in browser: http://localhost:8888, and start the lab by clicking on the nways_start.ipynb
notebook.