[Solved] Neural Language Models : Assignment 6 Solution

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This assignment is a continuation of last weeks assignment. Well turn from traditional n-gram based language models to a more advanced form of language modeling using a Recurrent Neural Network. Specifically, well be setting up a character-level recurrent neural network (char-rnn) for short.

Andrej Karpathy, a researcher at OpenAI, has written an excellent blog post about using RNNs for language models, which you should read before beginning this assignment. The title of his blog post is The Unreasonable Effectiveness of Recurrent Neural Networks.

Karpathy shows how char-rnns can be used to generate texts for several fun domains:

  • Shakespeare plays
  • Essays about economics
  • LaTeX documents
  • Linux source code
  • Baby names

In this assignment you will follow a Pytorch tutorial code to implement your own char-rnn, and then test it on a dataset of your choice. You will also train on our provided training set, and submit to the leaderboard, where we will measure your models complexity on our test set.

Part 1: Set up Pytorch

Pytorch is one of the most popular deep learning frameworks in both industry and academia, and learning its use will be invaluable should you choose a career in deep learning. You will be using Pytorch for this assignment, and instead of providing you source code, we ask you to build off a couple Pytorch tutorials.

Setup

Using miniconda

Miniconda is a package, dependency and environment management for python (amongst other languages). It lets you install different versions of python, different versions of various packages in different environments which makes working on multiple projects (with different dependencies) easy.

There are two ways to use miniconda,

  1. Use an existing installation from another user (highly recommended): On biglab, add the following line at the end of your ~/.bashrc file.Then run the following commandIf you run the command $ which conda, the output should be /home1/m/mayhew/miniconda3/bin/conda.
  2. Installing Miniconda from scratch: On biglab, run the following commands. Press Enter/Agree to all prompts during installation.After successful installation, running the command $ which conda should output /home1/m/$USERNAME/miniconda3/bin/conda.

Installing Pytorch and Jupyter

For this assignment, youll be using Pytorch and Jupyter.

  1. If you followed our recommendation and used the existing miniconda installation from 1. above, youre good to go. Stop wasting time and start working on the assignment!
  2. Intrepid students who installed their own miniconda version from 2. above, need to install their own copy of Pytorch and Jupyter. To install Pytorch, run the commandTo check, run python and import torch. This should run without giving errors. To install jupyter, run the command (it might take a while)Running the command jupyter --version should yield the version installed.

How to use Jupyter notebook

For this homework, you have the option of using jupyter notebook, which lets you interactively edit your code within the web browser. Jupyter reads files in the .ipynb format. To launch from biglab, do the following.

  1. On biglab, navigate to the directory with your code files and type jupyter notebook --port 8888 --no-browser. If you are having token issues, you may need to also add the argument --NotebookApp.token=''.
  2. In your local terminal, set up port forward by typing ssh -N -f -L localhost:8888:localhost:8888 [email protected].
  3. In your local web browser, navigate to localhost:8888.

Part 2: Classification Using Character-Level Recurrent Neural Networks

Follow the tutorial code

Read through the tutorial here that builds a char-rnn that is used to classify baby names by their country of origin. While we strongly recommend you carefully read through the tutorial, you will find it useful to build off the released code here. Make sure you can reproduce the tutorials results on the tutorials provided baby-name dataset before moving on.

Switch to city names dataset

Modify the tutorial code to instead read from the city names dataset that we used in the previous assignment. The tutorial code problematically used the same text file for both training and evaluation. We learned in class about how this is not a great idea. For the city names dataset we provide you separate train and validation sets, as well as a test file for the leaderboard.

All training should be done on the train set and all evaluation (including confusion matrices and accuracy reports) on the validation set. You will need to change the data processing code to get this working. Specifically, youll need to modify the code in the 3rd code block to create two variables category_lines_train and category_lines_val. In addition, to handle unicode, you might need to replace calls to open with calls to codecs.open(filename, "r",encoding='utf-8', errors='ignore').

Warning: youll want to lower the learning rating to 0.002 or less or you might get NaNs when training.

Attribution: the city names dataset is derived from Maxminds dataset.

Experimentation and Analysis

Complete the following analysis on the city names dataset, and include your finding in the report.

  1. Write code to output accuracy on the validation set. Include your best accuracy in the report. (For a benchmark, the TAs were able to get accuracy above 50%) Discuss where your model is making mistakes. Use a confusion matrix plot to support your answer.
  2. Modify the training loop to periodically compute the loss on the validation set, and create a plot with the training and validation loss as training progresses. Is your model overfitting? Include the plot in your report.
  3. Experiment with the learning rate. You can try a few different learning rates and observe how this affects the loss. Another common practice is to drop the learning rate when the loss has plateaued. Use plots to explain your experiments and their effects on the loss.
  4. Experiment with the size of the hidden layer or the model architecture How does this affect validation accuracy?

Leaderboard

Write code to make predictions on the provided test set. The test set has one unlabeled city name per line. Your code should output a file labels.txtwith one two-letter country code per line. Extra credit will be given to the top leaderboard submissions. Here are some ideas for improving your leaderboard performance:

  • Play around with the vocabulary (the all_letters variable), for example modifying it to only include lowercase letters, apostrophe, and the hyphen symbol.
  • Test out label smoothing
  • Try a more complicated architecture, for example, swapping out the RNN for LSTM or GRU units.
  • Use a different initalization for the weights, for example, small random values instead of 0s

In your report, describe your final model and training parameters.

Part 3: Text generation using char-rnn

In this section, you will be following more Pytorch tutorial code in order to reproduce Karpathys text generation results. Read through the tutorial here, and then download this ipython notebook to base your own code on.

You will notice that the code is quite similar to that of the classification problem. The biggest difference is in the loss function. For classification, we run the entire sequence through the RNN and then impose a loss only on the final class prediction. For the text generation task, we impose a loss at each step of the RNN on the predicted character. The classes in this second task are the possible characters to predict.

Experimenting with your own dataset

Be creative! Pick some dataset that interests you. Here are some ideas:

In your report:

Include a sample of the text generated by your model, and give a qualitative discussion of the results. Where does it do well? Where does it seem to fail? Report perplexity on a couple validation texts that are similar and different to the training data. Compare your models results to that of an n-gram language model.

Deliverables

Neural Nets and Neural Language Models. Dan Jurafsky and James H. Martin. Speech and Language Processing (3rd edition draft) .
The Unreasonable Effectiveness of Recurrent Neural Networks. Andrej Karpathy. Blog post. 2015.
A Neural Probabilistic Language Model (longer JMLR version). Yoshua Bengio, Rjean Ducharme, Pascal Vincent and Christian Jauvin. Journal of Machine Learning Research 2003

5/5 – (2 votes)

Here are the materials that you should download for this assignment:

export PATH="/home1/m/mayhew/miniconda3/bin:$PATH"
source ~/.bashrc
$ wget https://repo.continuum.io/miniconda/Miniconda3-latest-Linux-x86_64.sh$ chmod +x Miniconda3-latest-Linux-x86_64.sh$ bash Miniconda3-latest-Linux-x86_64.sh
conda install pytorch-cpu torchvision -c pytorch
conda install jupyter

Download the city names dataset.

Here are the deliverables that you will need to submit:

  • writeup.pdf
  • code (.zip). It should be written in Python 3 and include a README.txt briefly explaining how to run it.
  • labels.txt predictions for leaderboard.

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[Solved] Neural Language Models : Assignment 6 Solution
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