Skip to content

Latest commit

 

History

History
79 lines (60 loc) · 4.04 KB

README.md

File metadata and controls

79 lines (60 loc) · 4.04 KB

Deep learning course

This repo supplements Deep Learning course taught at YSDA and Skoltech @spring'18. For previous iteration visit the fall17 branch.

Lecture and seminar materials for each week are in ./week* folders. Homeworks are in ./homework* folders.

General info

  • Create cloud jupyter session from this repo - Binder
  • Telegram chat room (russian).
  • YSDA deadlines & admin stuff can be found at the YSDA course wiki (ysda students only).
  • Any technical issues, ideas, bugs in course materials, contribution ideas - add an issue

Syllabus

  • week01 Intro to deep learning

    • Lecture: Deep learning -- introduction, backpropagation algorithm
    • Seminar: Neural networks in numpy
    • Homework 1 is out!
  • week02 Adaptive optimization methods

    • Lecture: Empirical risk minimization, standard loss functions, linear classification, stochastic optimizers, adaptive SGD
    • Seminar: Adaptive optimizers in numpy
    • Please begin worrying about installing pytorch. You will need it next week!
  • week03 Convolutional networks I

    • Lecture: Convolutional networks (ConvNets), computer vision
    • Seminar: Symbolic graphs (pytorch),
    • Homework 2 is out!
  • week04 Convolutional networks II

    • Lecture: ConvNet architectures, representations inside CNNs; visualizing networks/inceptionism, transfer learning
    • Seminar: Fine-tuning a pre-trained network
  • week05 Advanced Computer vision

    • Lecture: "Deep" computer vision beyond classification; Verification tasks, object detection architectures, semantic segmentation
    • Seminar: Semantic segmentation
    • Homework 3 is out!
  • week06 Deep generative models I

    • Lecture: Deep image generation; generative ConvNets, perceptual loss functions.
    • Seminar: Art Style Transfer by Dmitry Ulyanov
  • week07 Deep generative models II

    • Lecture: Generative Adversarial Networks
    • Seminar: Generative Adversarial Networks
  • week08 Unsupervised deep learning

    • Lecture: Autoencoders, variational autoencoders, image analogies
    • Seminar: Variational autoencoders
  • week09 Deep learning for natural language processing

    • Lecture: Word embeddings, word2vec and other variants, convolutional networks for natural language
    • Seminar: Word embeddings. Text convolutions for salary prediction.
    • Homework 4 is out!
  • week10 Recurrent neural networks

    • Lecture: Modelling sequences. Simple RNN. Why BPTT isn't worth 4 letters. GRU/LSTM.
    • Seminar: Generating human names and deep learning papers with RNNs
  • week11 Recurrent neural networks II

    • Lecture: Sequence2sequence, architectures with attention and long-term memory.
    • Seminar: Image Captioning
  • week12: Deep Reinforcement Learning

    • Lecture: Reinforcement Learning, MDPs, policy gradient methods
    • Seminar: REINFORCE on simple robot control, optional: advantage actor-critic on atari

Contributors & course staff

Course materials and teaching performed by