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Generative Latent Flow

This is an unofficial PyTorch implementation of the Generative Latent Flow paper by Zhisheng Xiao, Qing Yan, Yali Amit.

Requirements

The repository is built on top of PyTorch 1.2.0. The structure of the project is inspired by open-mmlab/mmsr. To install all required packages, run the following command:

pip install -r requirements.txt

How to use

The Generative Latent Flow (GLF) is an algorithm for generative modeling of the data distribution. One could use it to generate images.

Training

To start the training process run

python train.py -opt glf/options/train/train_glf_original_mnist.yml

To start a TensorBoard simply run

tensorboard --logdir tb_logger/experiment_name

Parameters

If you would to modify models' hyperparameters, number of epochs, batch size, and other, consider looking to glf/options/train folder for configuration examples. An example of the config file is as follows:

name: my_experiment                     # name of the experiment
use_tb_logger: true                     # use tensorboard or not
model: generative
gpu_ids: [1,2]                          # GPUs to use, # e.g. [0,1,2,5]

datasets:
  train:
    name: MNIST                         # See `datasets` section for available datasets
    dataroot: datasets/mnist            # Path to the folder where data will be saved
    use_shuffle: true
    n_workers: 8                        # Num workers per GPU
    batch_size: 256
  val:
    name: MNIST
    dataroot: datasets/mnist

encoder: # (E)
  which_model: glf_encoder
  img_size: 28                          # H and W of the image
  in_ch: 1                              # Number of channels in the input image
  nz: 20                                # Dimension of the latent space

decoder: # (D)
  which_model: glf_decoder
  img_size: 28
  out_ch: 1
  nz: 20        

flow: # (F)
  which_model: FlowNet
  stop_gradients: True                  # Enable stop gradient operation (see the paper for more details)
  nz: 20
  hidden_size: 64
  nblocks: 4

path:
  pretrained_encoder: ~
  pretrained_decoder: ~
  pretrained_flow: ~
  resume_state: ~
  strict_load: true

train:
  lr_E: 0.001                           # 0 to freeze params
  weight_decay_E: 0
  beta1_E: 0.9
  beta2_E: 0.99

  lr_D: 0.001                           # 0 to freeze params
  weight_decay_D: 0
  beta1_D: 0.9
  beta2_D: 0.99

  lr_F: 0.001                           # 0 to freeze params
  weight_decay_F: 0.00002
  beta1_F: 0.9
  beta2_F: 0.99

  niter: 23400                          # Number of iterations

  lr_scheme: MultiStepLR
  warmup_iter: -1                       # -1 means no warm up
  lr_steps: [11700]
  lr_gamma: 0.5

  pixel_criterion: l1                   # Reconstruction loss (`l1` or `l2`)
  pixel_weight: 1                       # Weight of the reconstruction loss in the final loss
  add_background_mask: false            # Will put higher weight to regions where (image != 1). Useful for dots dataset

  feature_weight: 0                     # Weight of the perceptual loss in the final loss

  nll_weight: 1                         # Weight of the NLL loss in the final loss

  manual_seed: 10
  val_calculate_fid_prd: true           # Calculate FID and PRD during training
  val_freq: 1000                        # How often to start the validation process

logger:
  print_freq: 100
  save_checkpoint_freq: 10000

There are some prepared configs in glf/options/train folder.

This command will create multiple folders

tb_logger/experiment_name                   # Tensorboard event files
└──  events.out.tfevents
experiments/experiment_name
├── models                                  # Saved checkpoints
│   ├── latest_D.pth
│   ├── latest_F.pth
│   └── latest_G.pth
├── samples                                 # Examples of generated images
│   ├── 1000.png
│   ├── 2000.png
│   ├── ...
│   └── 100500.png
└──  config.ymllogger_file.log              # Logs

Datasets

The following datasets are available: CelebA, MNIST, FashionMNIST, CIFAR10, Dots. If you would like to add new dataset, please look at glf/data/__init__.py for an example.

Results

CelebA

This result is achieved by using the glf/options/train/train_glf_original_celeba.yml config.

CIFAR10

This result is achieved by using the glf/options/train/train_glf_original_cifar10.yml config.

Noise interpolation

To play with noise interpolation and image generation check the notebooks/celeba_demo.ipynb.

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The PyTorch implementation of the GLF

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