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Updated version of Activation-Visualization-Histogram. Tracks output activation histograms for the conv layers while training/inference of a DNN model.

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RishabhSehgal/Activation-Visualization-Histogram

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SELUs (scaled exponential linear units) - Visualized and Histogramed Comparisons among ReLU and Leaky ReLU

Rish 03/31/2022: Made some changes to accommodate different models for cifar10 activation histograms visualization.

Added a 'thru' activation which basically passes the convolution output activations through without performing any activation function so that it is easy to visualize them as it is.

Commands for running

python trainer.py --dataset CIFAR10 --activation thru

To check the tensorboard results the following script and command was used:

tensorboard --logdir=="train_dir/default-CIFAR10_lr_0.0001_activation_thru-20220323-200736" &

Descriptions

This project includes a Tensorflow implementation of SELUs (scaled exponential linear units) proposed in this paper Self-Normalizing Neural Networks. Also, aiming to present clear at a glance comparisons among SELU, ReLU, Leaky ReLU, etc, this implementation focuses on visualizing and histogramming activations on Tensorboard. As a result, the drawn visualization and histogram are nicely incorporating with Tensorboard by introducing plotting summaries. Examples of visualization and histogram are as follows.

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Ideally, desire activations of every layer are close to zero mean and unit variance to make tensors propagated through several layers converge towards zero mean and unit variance. The learning can, therefore, be stabilized by preventing gradients from being vanishing and exploding. In this work, the authors propose scaled exponential linear units (SELUs) which aim to automatically shift and rescale neuron activations towards zero mean and unit variance without explicit normalization like what batch normalization technique does.

Intending to empirically verify the effectiveness of the proposed activations, a convolutional neural network consisting of three convolutional layers followed by three fully connected layers was implemented to be trained on image classification tasks on datasets such as MNIST, SVHN, and CIFAR10. To overcome the limited content allowed to be shown on Tensorboard, a plotting library Tensorflow Plot aiming to bridge the gap between Python plotting libraries and Tensorboard is introduced. Again, here are some examples.

  • Histogram of activations on Tensorboard

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  • Visualization of activations on Tensorboard

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The implemented model is trained and tested on three publicly available datasets: MNIST, SVHN, and CIFAR-10.

*This code is still being developed and subject to change.

Prerequisites

Usage

Datasets

Download datasets with:

$ python download.py --dataset MNIST SVHN CIFAR10

Just do it

Simply run comparisons among the default activations including SELU, ReLU, and Leaky ReLU

python script.py

Note that this script will

  • Clean up the default directory train_dir,
  • Run three training jobs with the same settings of the model architecture, learning rate, dataset but differing from the employed activations (ReLU, Leaky ReLU, and SELU, respectively), and
  • Launch Tensorboard on the provided default port (localhost:7007).

Use your own settings

You can change several setting with the args including batch size, learning rate and the weight decay applied to it, dataset, activations, etc. Also, if you want to test other model architectures or other activations such as sigmoid or tanh, it's also easy.

Here are some examples:

Train models with different activation functions with downloaded datasets:

$ python trainer.py --dataset MNIST --activation relu --learning_rate 1e-3
$ python trainer.py --dataset SVHN --activation lrelu --batch_size 128
$ python trainer.py --dataset CIFAR10 --activation selu --lr_weight_decay

Train and test your own datasets:

  • Create a directory
$ mkdir datasets/YOUR_DATASET
  • Store your data as an h5py file datasets/YOUR_DATASET/data.hy and each data point contains
    • 'image': has shape [h, w, c], where c is the number of channels (grayscale images: 1, color images: 3)
    • 'label': represented as an one-hot vector
  • Maintain a list datasets/YOUR_DATASET/id.txt listing ids of all data points
  • Modify trainer.py including args, data_info, etc.
  • Finally, train and test models:
$ python trainer.py --dataset YOUR_DATASET
$ python evaler.py --dataset YOUR_DATASET

Results

Only the histogram and visualized activations of the last convolutional layer (3rd layer) and the first fully connected layer (4th layer) are selected to be presented here. (Trained for 10k iterations)

SELU

  • The convolutional layer

  • The fully connected layer

ReLU

  • The convolutional layer

  • The fully connected layer

Leaky ReLU

  • The convolutional layer

  • The fully connected layer

Related works

Author

Shao-Hua Sun / @shaohua0116 @ Joseph Lim's research lab @ USC

Acknowledgement

The code monitor.py was written by @wookayin

Help article for myself

https://stackoverflow.com/questions/18200248/cloning-a-repo-from-someone-elses-github-and-pushing-it-to-a-repo-on-my-github

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Updated version of Activation-Visualization-Histogram. Tracks output activation histograms for the conv layers while training/inference of a DNN model.

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