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In this assignment you will practice writing backpropagation code, and training Neural Networks and Convolutional Neural Networks. The goals of this assignment are as follows:
- understand **Neural Networks** and how they are arranged in layered
architectures
- understand and be able to implement (vectorized) **backpropagation**
- implement various **update rules** used to optimize Neural Networks
- implement **batch normalization** for training deep networks
- implement **dropout** to regularize networks
- effectively **cross-validate** and find the best hyperparameters for Neural Network architecture
- understand the architecture of **Convolutional Neural Networks**
- gain an understanding of how a modern deep learning library (PyTorch) works and gain practical experience using it to train models.
## Setup
Make sure your machine is set up with the assignment dependencies.
**[Option 1] Use Anaconda:**
The preferred approach for installing all the assignment dependencies is to use [Anaconda](https://www.continuum.io/downloads), which is a Python distribution that includes many of the most popular Python packages for science, math, engineering and data analysis. Once you install it you can skip all mentions of requirements and you are ready to go directly to working on the assignment.
**[Option 2] Manual install, virtual environment:**
If you do not want to use Anaconda and want to go with a more manual and risky installation route you will likely want to create a [virtual environment](http://docs.python-guide.org/en/latest/dev/virtualenvs/) for the project. If you choose not to use a virtual environment, it is up to you to make sure that all dependencies for the code are installed globally on your machine. To set up a virtual environment, run the following:
```bash
cd assignment1
sudo pip install virtualenv # This may already be installed
virtualenv .env # Create a virtual environment
source .env/bin/activate # Activate the virtual environment
pip install -r requirements.txt # Install dependencies
# Work on the assignment for a while ...
deactivate # Exit the virtual environment
```
**Download data:**
Once you have the starter code, you will need to download the CIFAR-10 dataset.
Run the following from the `assignment1` directory:
```bash
cd deeplearning/datasets
./get_datasets.sh
```
If you are on Mac, this script may not work if you do not have the wget command installed, but you can use curl instead with the alternative script.
```bash
cd deeplearning/datasets
./get_datasets_curl.sh
```
**Compile the Cython extension:** Convolutional Neural Networks require a very efficient implementation. We have implemented of the functionality using [Cython](http://cython.org/); you will need to compile the Cython extension before you can run the code. From the `deeplearning` directory, run the following command:
```bash
python setup.py build_ext --inplace
```
**Start IPython:**
After you have the CIFAR-10 data, you should start the IPython notebook server from the `assignment1` directory. If you are unfamiliar with IPython, you should read our [IPython tutorial](http://cs231n.github.io/ipython-tutorial/).
**NOTE:** If you are working in a virtual environment on OSX, you may encounter errors with matplotlib due to the [issues described here](http://matplotlib.org/faq/virtualenv_faq.html).
You can work around this issue by starting the IPython server using the `start_ipython_osx.sh` script from the `assignment1` directory; the script assumes that your virtual environment is named `.env`.
### Submitting your work:
Once you are done working run the `collectSubmission.sh` script; this will produce a file called `assignment1.zip`.
Upload this file to Gradescope.
Note that Gradescope will run an autograder on the files you submit. For some test cases, there is a nonzero (but should be very low) probability that correct implementations may fail due to randomness. If you think your implementation is correct, then you can simply resubmit to rerun the autograder to check whether it really is just a particularly unlucky seed..
### Q1: Fully-connected Neural Network (35 points)
The IPython notebook `FullyConnectedNets.ipynb` will introduce you to our modular layer design, and then use those layers to implement fully-connected networks of arbitrary depth. To optimize these models you will implement several popular update rules.
### Q2: Batch Normalization (25 points)
In the IPython notebook `BatchNormalization.ipynb` you will implement batch normalization, and use it to train deep fully-connected networks.
### Q3: Dropout (10 points)
The IPython notebook `Dropout.ipynb` will help you implement Dropout and explore its effects on model generalization.
### Q4: ConvNet (20 points)
In the IPython Notebook `ConvolutionalNetworks.ipynb` you will implement several new layers that are commonly used in convolutional networks as well as implement a small convolutional network.
### Q5: Train a model on CIFAR10 using Pytorch! (10 points)
Now that you've implemented and gained an understanding for many key components of a basic deep learning library, it is time to move on to a modern deep learning library: Pytorch. Here, we will walk you through the key concepts of PyTorch, and you will use it to experiment and train a model on CIFAR10. We highly recommend you use Google Colab (https://colab.research.google.com/) for this notebook, as it comes with Pytorch installed and provides access to GPUs.
If you use Colab for this notebook, make sure to manually download the completed notebook and place it in the assignment directory before submitting. Also remember to download required output file and place it into submission_logs/ directory.