Deep Learning (PyTorch)
This repository contains material related to Udacity's Deep Learning Nanodegree program. It consists of a bunch of tutorial notebooks for various deep learning topics. In most cases, the notebooks lead you through implementing models such as convolutional networks, recurrent networks, and GANs. There are other topics covered such as weight initialization and batch normalization.
There are also notebooks used as projects for the Nanodegree program. In the program itself, the projects are reviewed by real people (Udacity reviewers), but the starting code is available here, as well.
Table Of Contents
Introduction to Neural Networks
- Introduction to Neural Networks: Learn how to implement gradient descent and apply it to predicting patterns in student admissions data.
- Sentiment Analysis with NumPy: Andrew Trask leads you through building a sentiment analysis model, predicting if some text is positive or negative.
- Introduction to PyTorch: Learn how to build neural networks in PyTorch and use pre-trained networks for state-of-the-art image classifiers.
Convolutional Neural Networks
- Convolutional Neural Networks: Visualize the output of layers that make up a CNN. Learn how to define and train a CNN for classifying MNIST data, a handwritten digit database that is notorious in the fields of machine and deep learning. Also, define and train a CNN for classifying images in the CIFAR10 dataset.
- Transfer Learning. In practice, most people don't train their own networks on huge datasets; they use pre-trained networks such as VGGnet. Here you'll use VGGnet to help classify images of flowers without training an end-to-end network from scratch.
- Weight Initialization: Explore how initializing network weights affects performance.
- Autoencoders: Build models for image compression and de-noising, using feedforward and convolutional networks in PyTorch.
- Style Transfer: Extract style and content features from images, using a pre-trained network. Implement style transfer according to the paper, Image Style Transfer Using Convolutional Neural Networks by Gatys et. al. Define appropriate losses for iteratively creating a target, style-transferred image of your own design!
Recurrent Neural Networks
Intro to Recurrent Networks (Time series & Character-level RNN): Recurrent neural networks are able to use information about the sequence of data, such as the sequence of characters in text; learn how tom implement these in PyTorch for a variety of tasks.
Embeddings (Word2Vec): Implement the Word2Vec model to find semantic representations of words for use in natural language processing.
Sentiment Analysis RNN: Implement a recurrent neural network that can predict if the text of a moview review is positive or negative.
Attention: Implement attention and apply it to annotation vectors.
This repo is in development (as of 11/6) and there are more tutorials to come!
- Predicting Bike-Sharing Patterns: Implement a neural network in NumPy to predict bike rentals.
- Dog Breed Classifier: Build a convolutional neural network with PyTorch to classify any image (even an image of a face) as a specific dog breed.
- TV Script Generation: Train a recurrent neural network to generate scripts in the style of dialogue from Seinfeld.
- More to come
- Intro to TensorFlow: Starting building neural networks with TensorFlow.
- Keras: Learn to build neural networks and convolutional neural networks with Keras.
Configure and Manage Your Environment with Anaconda
Per the Anaconda docs:
Conda is an open source package management system and environment management system for installing multiple versions of software packages and their dependencies and switching easily between them. It works on Linux, OS X and Windows, and was created for Python programs but can package and distribute any software.
Using Anaconda consists of the following:
minicondaon your computer, by selecting the latest Python version for your operating system. If you already have
minicondainstalled, you should be able to skip this step and move on to step 2.
- Create and activate * a new
* Each time you wish to work on any exercises, activate your
Download the latest version of
miniconda that matches your system.
|64-bit||64-bit (bash installer)||64-bit (bash installer)||64-bit (exe installer)|
|32-bit||32-bit (bash installer)||32-bit (exe installer)|
Install miniconda on your machine. Detailed instructions:
- Linux: http://conda.pydata.org/docs/install/quick.html#linux-miniconda-install
- Mac: http://conda.pydata.org/docs/install/quick.html#os-x-miniconda-install
- Windows: http://conda.pydata.org/docs/install/quick.html#windows-miniconda-install
2. Create and Activate the Environment
For Windows users, these following commands need to be executed from the Anaconda prompt as opposed to a Windows terminal window. For Mac, a normal terminal window will work.
Git and version control
These instructions also assume you have
git installed for working with Github from a terminal window, but if you do not, you can download that first with the command:
conda install git
If you'd like to learn more about version control and using
git from the command line, take a look at our free course: Version Control with Git.
Now, we're ready to create our local environment!
- Clone the repository, and navigate to the downloaded folder. This may take a minute or two to clone due to the included image data.
git clone https://github.com/udacity/deep-learning-v2-pytorch.git cd deep-learning-v2-pytorch
Create (and activate) a new environment, named
deep-learningwith Python 3.6. If prompted to proceed with the install
(Proceed [y]/n)type y.
- Linux or Mac:
conda create -n deep-learning python=3.6 source activate deep-learning
conda create --name deep-learning python=3.6 activate deep-learning
At this point your command line should look something like:
(deep-learning) <User>:deep-learning-v2-pytorch <user>$. The
(deep-learning)indicates that your environment has been activated, and you can proceed with further package installations.
Install PyTorch and torchvision; this should install the latest version of PyTorch.
- Linux or Mac:
conda install pytorch torchvision -c pytorch
conda install pytorch -c pytorch pip install torchvision
Install a few required pip packages, which are specified in the requirements text file (including OpenCV).
pip install -r requirements.txt
- That's it!
Now most of the
deep-learning libraries are available to you. Very occasionally, you will see a repository with an addition requirements file, which exists should you want to use TensorFlow and Keras, for example. In this case, you're encouraged to install another library to your existing environment, or create a new environment for a specific project.
Noe, assuming your
deep-learning environment is still activated, you can navigate to the main repo and start looking at the notebooks:
cd cd deep-learning-v2-pytorch jupyter notebook
To exit the environment when you have completed your work session, simply close the terminal window.