Modern Data Analytics 2022
Organization: Prof. Dr. Dan Olteanu, Prof. Dr. Michael Böhlen
This seminar overviews recent research development at the intersection of databases and machine learning. In particular, it considers two distinct lines of work:
- The application of machine learning to databases: Use models to predict query performance or replace traditional modules in a database management system such as indices.
- The application of databases to machine learning: Use database techniques to improve the runtime performance for training machine learning models.
Learning outcome: The goal of the seminar is to expose the students to the recent trends in academia and industry on rethinking database management systems and on how to effectively unify knowledge on both machine learning and databases to scale data science workloads.
Target audience: MSc in Data Science students (the maximum number of students is restricted to 18)
Semester: This seminar will be offered in Fall 2022.
Teaching format: Each participant: prepares a presentation based on a research paper; answers follow-up technical questions; reads the other papers in the seminar session; and actively participates in the technical discussions in the seminar. Each participant has a buddy, who will help improve their presentation by making suggestions for improvements and attending dry runs of the presentation. The first complete draft of the presentation is due one month after the kickoff meeting. The best presentation of the seminar will be selected by the participants and receive a prize.
Registration: Please register as required by the department. In addition, please browse the papers mentioned below. In the kickoff meeting, the papers will be assigned to students, so make sure you get assigned to a paper you want.
Meetings: The first meeting will be on Tuesday, September 20, 2022 from 2pm to 4pm in room BIN 1.D.29. The meeting will feature a presentation by the organizers overviewing the topics to be investigated in the seminar and it will answer questions from the participants. In this session, students will be assigned to papers. The slides of the first meeting are here.
The student presentations will take place on Saturday November 12 and December 3, 2022 in BIN 2.A.01.
Participation at all three meetings is compulsory. The assessment depends on the quality of the presentation, active participation during the seminar, and input as a buddy.
How to read papers and give talks
How to read papers:
- Focus questions to help identify the main contributions of a paper
- Survival kit includes tips on how to read technical sections and the "three-pass approach" to tie all together
- Reading Research Papers by Andrew Ng
How to give talks:
- These two articles have a number of good suggestions.
- This video is pretty good as well.
- How To Speak by Patrick Winston - a newer version of Patrick's talk
Papers to be read by all students
The following are individual paper assignments organized by topics. Whenever an entry has two papers, this means that both papers can be presented together (as they use similar ideas), or only one of them can be presented.
Topic 1: Learned Data Structures used in Database Systems
Topic 2: Learned Query Optimization and Evaluation
- 2.1 How Good are Query Optimizers, Really?
- 2.2 Learning to Optimize Join Queries With Deep Reinforcement Learning
- 2.3 Bao: Making Learned Query Optimization Practical
- 2.4 Learned Cardinalities: Estimating Correlated Joins with Deep Learning
- 2.5 Are We Ready For Learned Cardinality Estimation?
- 2.6SkinnerDB: Regret-Bounded Query Evaluation via Reinforcement Learning
Topic 3: In-database Machine Learning and Linear Algebra
- 3.1 The MADlib Analytics Library or MAD Skills, the SQL
- 3.2 In-Database Machine Learning with CorgiPile: Stochastic Gradient Descent without Full Data Shuffle
- 3.3 A Layered Aggregate Engine for Analytics Workloads
- 3.4 Rk-means: Fast Clustering for Relational Data
- 3.5 LaraDB: A Minimalist Kernel for Linear and Relational Algebra Computation
- 3.6 Compressed linear algebra for declarative large-scale machine learning
- 3.7 Scalable linear algebra on a relational database system
- 3.8 Incremental and Approximate Inference for Faster Occlusion-based Deep CNN Explanations
Paper Assignments, Buddies, and Supervisors
| Paper | Presenter | Buddy | Supervisor |
|---|---|---|---|
| 1.1 |
Xiaonan Jian |
Yukta Koralla | Ahmet Kara |
| 1.2 |
Hyeongkyun Kim |
Le Hoang Minh Trinh | Ahmet Kara |
| 2.1 |
Lampros Mitsiogiannis |
Yixuan Zhou | Michael Böhlen |
| 2.2 |
Alexander Zingrich |
Luis Torrejón Machado | Ahmet Kara |
| 2.3 |
Hasan Atak |
Jingjing Li | Michael Böhlen |
| 2.4 |
Zhaoyi Cheng |
Muhammad Hamza | Michael Böhlen |
| 2.5 |
Ann-Kathrin Kübler |
Abhinav Kumar | Michael Böhlen |
| 2.6 |
Ziying Shao |
Isabella Louise Fairman | Ahmet Kara |
| 3.1 |
Yukta Koralla |
Xiaonan Jian | Cédric Renggli |
| 3.2 |
Le Hoang Minh Trinh |
Hyeongkyun Kim | Cédric Renggli |
| 3.3 |
Yixuan Zhou |
Lampros Mitsiogiannis | Dan Olteanu |
| 3.4 |
Luis Torrejón Machado |
Alexander Zingrich | Dan Olteanu |
| 3.5 |
Jingjing Li |
Hasan Atak | Dan Olteanu |
| 3.6 |
Muhammad Hamza |
Zhaoyi Cheng | Cédric Renggli |
| 3.7 |
Abhinav Kumar |
Ann-Kathrin Kübler | Cédric Renggli |
| 3.8 | Isabella Louise Fairman | Ziying Shao | Dan Olteanu |
Papers 1.1 to 2.6 will be presented on Saturday, November 12, 2022
Papers 3.1 to 3.8 will be presented on Saturday, December 3, 2022