Neurobayesian models 2019
Lector: Dmitry Vetrov
Tutors: Alexander Grishin, Kirill Struminsky, Dmitry Molchanov, Kirill Neklyudov, Artem Sobolev, Arsenii Ashukha, Oleg Ivanov, Ekaterina Lobacheva.
Contacts: All the questions should be addressed to bayesml@gmail.com. Subject line of any letter must contain the following tag: [HSE NBM19]. Letters without the tag will be most probably lost in the inbox.
We also have a chat in Telegram. Its main language is English. All important news will be announced in the chat.
Содержание
Course description
This course is devoted to Bayesian reasoning in application to deep learning models. Attendees would learn how to use probabilistic modeling to construct neural generative and discriminative models, how to use the paradigm of generative adversarial networks to perform approximate Bayesian inference and how to model the uncertainty about the weights of neural networks. Selected open problems in the field of deep learning would also be discussed. The practical assignments will cover implementation of several modern Bayesian deep learning models.
News
- The first assignment has been uploaded to anytask. Deadline: 22 February, 23:00.
- The second assignment has been uploaded to anytask. Deadline: 8 March, 23:00.
- The third assignment has been uploaded to anytask. Deadline: 15 March, 23:00.
Grading System
The assessment consists of 3 practical assignments and a final oral exam. Practical assignments consist of programming some models/methods from the course in Python and analysing their behavior: VAE, Normalizing flows, Sparse Variational Dropout. At the final exam students have to demonstrate knowledge of the material covered during the entire course.
Final course grade is obtained from the following formula:
О_final = 0,7 * О_cumulative + 0,3 * О_exam,
where О_cumulative is an average grade for the practical assignments.
All grades are in ten-point grading scale. If О_cumulative or О_final has a fractional part greater or equal than 0.5 then it is rounded up.
Assignments
- The course contains three practical assignments. Solutions should be submitted to anytask. To get the invite, please write to the course e-mail. The site has an interface only in Russian, so non-Russian speaking students may submit their solutions to the course e-mail. In this case, the subject line of the letter in addition to the tag should contain your name, surname and assignment number.
- All assignments should be coded in Python 3 using PyTorch.
- Students have to complete all assignments by themselves. Using code of your colleagues or code from open implementations is prohibited and will be considered as plagiarism. All involved students (including those who shared their solutions) will be severely punished.
- Assignments are scored up to 10 points. Each assignment has a deadline, a penalty is charged in the amount of 0.3 points for each day of delay, but in total not more than 6 points. Usually you will have 2 weeks to solve an assignment. Some assignments may contain bonus parts.
Approximate dates of assignments' upload: 7 February, 14 February, 28 February
At the end of the module before the exam there will be a hard deadline for all assignments! Exact date will be announced later.
Exam
TBA
Course Plan
№ | Date | Theme |
---|---|---|
1 | 24 January | Lecture: Stochastic Variational Inference |
31 January | Seminar: Application of SVI to Latent Dirichlet Allocation model | |
2 | 31 January | Lecture: Doubly Stochastic Variational Inference |
7 February | Seminar: Doubly Stochastic Variational Inference | |
3 | 7 February | Lecture: Variational autoencoders (VAE) and normalizing flows (NF) |
14 February | Seminar: Importance Weighted Autoencoders + more complex NF | |
4 | 14 February | Lecture: Implicit Variational Inference using Adversarial Training |
21 February | Seminar: f-GAN | |
5 | 21 February | Lecture: Bayesian neural networks |
28 February | Seminar: Local reparametrization trick | |
6 | 28 February | Lecture: Bayesian compression of neural networks |
7 March | Seminar: Deep Markov chain Monte Carlo (MCMC) | |
7 | 7 March | Lecture: Discrete Latent Variables and Variance Reduction |
14 March | Seminar: Discrete Latent Variables and Variance Reduction | |
8 | 14 March | Lecture: Semi-implicit variational inference |
21 March | Seminar: VampPrior |
Course Materials
List of all materials (relevant papers, blogposts, etc.)
Reading List
- Murphy K.P. Machine Learning: A Probabilistic Perspective. The MIT Press, 2012.
- Bishop C.M. Pattern Recognition and Machine Learning. Springer, 2006.
- Mackay D.J.C. Information Theory, Inference, and Learning Algorithms. Cambridge University Press, 2003.
- Ian Goodfellow, Yoshua Bengio & Aaron Courville. Deep Learning. MIT Press, 2016.
Useful links
[The same course at CS MSU] (contains more materials in Russian)
BayesGroup page