/nlp_course

YSDA course in Natural Language Processing

Primary LanguageJupyter NotebookMIT LicenseMIT

YSDA Natural Language Processing course

  • This is the 2021 version. For previous year' course materials, go to this branch
  • Lecture and seminar materials for each week are in ./week* folders, see README.md for materials and instructions
  • YSDA homework deadlines will be listed in Anytask (read more).
  • Any technical issues, ideas, bugs in course materials, contribution ideas - add an issue
  • Installing libraries and troubleshooting: this thread.

Syllabus

  • week01 Word Embeddings

    • Lecture: Word embeddings. Distributional semantics. Count-based (pre-neural) methods. Word2Vec: learn vectors. GloVe: count, then learn. Evaluation: intrinsic vs extrinsic. Analysis and Interpretability. Interactive lecture materials and more.
    • Seminar: Playing with word and sentence embeddings
    • Homework: Embedding-based machine translation system
  • week02 Text Classification

    • Lecture: Text classification: introduction and datasets. General framework: feature extractor + classifier. Classical approaches: Naive Bayes, MaxEnt (Logistic Regression), SVM. Neural Networks: General View, Convolutional Models, Recurrent Models. Practical Tips: Data Augmentation. Analysis and Interpretability. Interactive lecture materials and more.
    • Seminar: Text classification with convolutional NNs.
    • Homework: Statistical & neural text classification.
  • week03 Language Modeling

    • Lecture: Language Modeling: what does it mean? Left-to-right framework. N-gram language models. Neural Language Models: General View, Recurrent Models, Convolutional Models. Evaluation. Practical Tips: Weight Tying. Analysis and Interpretability. Interactive lecture materials and more.
    • Seminar: Build a N-gram language model from scratch
    • Homework: Neural LMs & smoothing in count-based models.
  • week04 Seq2seq and Attention

    • Lecture: Seq2seq Basics: Encoder-Decoder framework, Training, Simple Models, Inference (e.g., beam search). Attention: general, score functions, models. Transformer: self-attention, masked self-attention, multi-head attention; model architecture. Subword Segmentation (BPE). Analysis and Interpretability: functions of attention heads; probing for linguistic structure. Interactive lecture materials and more.
    • Seminar: Basic sequence to sequence model
    • Homework: Machine translation with attention
  • week05 Transfer Learning

    • Lecture: What is Transfer Learning? Great idea 1: From Words to Words-in-Context (CoVe, ELMo). Great idea 2: From Replacing Embeddings to Replacing Models (GPT, BERT). (A Bit of) Adaptors. Analysis and Interpretability. Interactive lecture materials and more.
  • week06 Domain Adaptation

    • Lecture: General theory. Instance weighting. Proxy-labels methods. Feature matching methods. Distillation-like methods.
    • Seminar+Homework: BERT-based NER domain adaptation
  • week07 Model compression and acceleration

  • week08 Probabilistic inference, generative models and hidden variables

  • week09 Machine translation

  • week10 Relation extraction

  • week11 Summarization

  • week12 Style Transfer

  • week13 Dialogue systems

  • week14 AI & ML generated art

Contributors & course staff

Course materials and teaching performed by

Authors and contributors of previous years