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caffe.cloc |
README.md
Caffe: Convolutional Architecture for Fast Feature Extraction
Created by Yangqing Jia, UC Berkeley EECS department. In active development by the Berkeley Vision and Learning Center (BVLC).
Introduction
Caffe aims to provide computer vision scientists with a clean, modifiable implementation of state-of-the-art deep learning algorithms. Network structure is easily specified in separate config files, with no mess of hard-coded parameters in the code. Python and Matlab wrappers are provided.
At the same time, Caffe fits industry needs, with blazing fast C++/Cuda code for GPU computation. Caffe is currently the fastest GPU CNN implementation publicly available, and is able to process more than 20 million images per day on a single Tesla K20 machine *.
Caffe also provides seamless switching between CPU and GPU, which allows one
to train models with fast GPUs and then deploy them on non-GPU clusters with one
line of code: Caffe::set_mode(Caffe::CPU)
.
Even in CPU mode, computing predictions on an image takes only 20 ms when images are processed in batch mode.
- Installation instructions
- Caffe presentation at the Berkeley Vision Group meeting
* When measured with the SuperVision model that won the ImageNet Large Scale Visual Recognition Challenge 2012.
License
Caffe is BSD 2-Clause licensed (refer to the LICENSE for details).
The pretrained models published by the BVLC, such as the Caffe reference ImageNet model are licensed for academic research / non-commercial use only. However, Caffe is a full toolkit for model training, so start brewing your own Caffe model today!
Citing Caffe
Please kindly cite Caffe in your publications if it helps your research:
@misc{Jia13caffe,
Author = {Yangqing Jia},
Title = { {Caffe}: An Open Source Convolutional Architecture for Fast Feature Embedding},
Year = {2013},
Howpublished = {\url{http://caffe.berkeleyvision.org/}
}
Documentation
Tutorials and general documentation are written in Markdown format in the docs/
folder.
While the format is quite easy to read directly, you may prefer to view the whole thing as a website.
To do so, simply run jekyll serve -s docs
and view the documentation website at http://0.0.0.0:4000
(to get jekyll, you must have ruby and do gem install jekyll
).
We strive to provide provide lots of usage examples, and to document all code in docstrings. We'd appreciate your contribution to this effort!
Contributing
Caffe is developed with active participation of the community by the Berkeley Vision and Learning Center. We welcome all contributions!
Our workflow is this:
- The
dev
branch is for new development, community contributions, and testing. - The
master
branch is handled by BVLC, which will integrate changes fromdev
on a roughly monthly schedule. - Do new development in feature branches with decriptive names.
- Bring your work up-to-date by rebasing onto the latest
dev
. (Polish your changes by interactive rebase, if you'd like.) - Pull request your contribution to BVLC/caffe's
dev
branch for discussion and review.- PRs should live fast, die young, and leave a beautiful merge. Pull request sooner than later so that discussion can guide development.
- Code must be accompanied by documentation and tests at all times.
- Only fast-forward merges will be accepted.
See our development guidelines for further details–the more closely these are followed, the sooner your work will be merged.
Shelhamer's “life of a branch in four acts”
Make the feature
branch off of the latest bvlc/dev
git checkout dev
git pull upstream dev
git checkout -b feature
# do your work, make commits
Prepare to merge by rebasing your branch on the latest bvlc/dev
# make sure dev is fresh
git checkout dev
git pull upstream dev
# rebase your branch on the tip of dev
git checkout feature
git rebase dev
Push your branch to pull request it into dev
git push origin feature
# ...make pull request to dev...
Now make a pull request! You can do this from the command line (git pull-request -b dev
) if you install hub.
The pull request of feature
into dev
will be a clean merge. Applause.