Skip to content

An implementation of the paper 'A Neural Algorithm of Artistic Style'.

License

Notifications You must be signed in to change notification settings

kaishengtai/neuralart

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

36 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

Implementation of 'A Neural Algorithm of Artistic Style'

This is a Torch7 implementation of the method described in the paper 'A Neural Algorithm of Artistic Style' by Leon Gatys, Alexander Ecker, and Matthias Bethge (http://arxiv.org/abs/1508.06576).

(Longer animation)

Dependencies

  • Torch7
  • imagine-nn (for Inception network)
  • CUDA 6.5 (unless running on CPU -- see below)

imagine-nn (and any other Torch packages you're missing) can be installed via Luarocks:

luarocks install inn

Usage

First, download the models by running the download script:

bash download_models.sh

This downloads the model weights for the VGG and Inception networks.

Basic usage:

qlua main.lua --style <style.jpg> --content <content.jpg> --style_factor <factor>

where style.jpg is the image that provides the style of the final generated image, and content.jpg is the image that provides the content. style_factor is a constant that controls the degree to which the generated image emphasizes style over content. By default it is set to 2E9.

This generates an image using the VGG-19 network by Karen Simonyan and Andrew Zisserman (http://www.robots.ox.ac.uk/~vgg/research/very_deep/).

Other options:

  • model: {inception, vgg}. Convnet model to use. Inception refers to Google's Inception architecture. Default is VGG.
  • num_iters: Number of optimization steps. Default is 500.
  • size: Long edge dimension of the generated image. Set to 0 to use the size of the content image. Default is 500.
  • display_interval: Number of iterations between image displays. Set to 0 to suppress image display. Default is 20.
  • smoothness: Constant that controls the smoothness of the generated image (total variation norm regularization strength). Useful when using Inception model (set to ~5E-3). Default is 0.
  • init: {image, random}. Initialization mode for the optimized image. image initializes with the content image; random initializes with random Gaussian noise. Default is image.
  • backend: {cunn, cudnn}. Neural network CUDA backend. cudnn requires the Torch bindings for CuDNN R3.
  • optimizer: {sgd, lbfgs}. Optimization algorithm. lbfgs is slower per iteration and consumes more memory, but may yield better results. Default is lbfgs.
  • cpu: Optimize on CPU instead of GPU (only VGG model supported).

Out of memory?

The VGG network with the default L-BFGS optimizer gives the best results. However, this setting also requires a lot of GPU memory. If you run into CUDA out-of-memory errors, try running with the Inception architecture or with the SGD optimizer:

qlua main.lua --style <style.jpg> --content <content.jpg> --model inception --optimizer sgd

You can also try reducing the size of the generated image:

qlua main.lua --style <style.jpg> --content <content.jpg> --size 300

If all else fails (or if you don't have a CUDA-compatible GPU), you can optimize on CPU:

qlua main.lua --style <style.jpg> --content <content.jpg> --cpu

Examples

The Eiffel Tower in the style of Edvard Munch's The Scream:

(Longer animation)

Picasso-fied Obama:

(Longer animation)

Implementation Details

When using the Inception network, the outputs of the following layers are used to optimize for style: conv1/7x7_s2, conv2/3x3, inception_3a, inception_3b, inception_4a, inception_4b, inception_4c, inception_4d, inception_4e.

The outputs of the following layers are used to optimize for content: inception_3a, inception_4a.

By default, the optimized image is initialized using the content image; the implementation also works with white noise initialization, as described in the paper.

In order to reduce high-frequency "screen door" noise in the generated image (especially when using the Inception network), total variation regularization is applied (idea from cnn-vis by jcjohnson).

Acknowledgements

The weights for the Inception network used in this implementation were ported to Torch from the publicly-available Caffe distribution.

Thanks to the Bethge Group for providing the weights to the normalized VGG network used here.

About

An implementation of the paper 'A Neural Algorithm of Artistic Style'.

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Contributors 4

  •  
  •  
  •  
  •