Nowadays we are witnessing the continuous generation of a huge volume of data from heterogeneous sources. Managing, processing, and analyzing such data becomes challenging and requires the adoption of high-performance computing frameworks and techniques. The course discusses the performance bottlenecks in traditional data processing and analytical tools and techniques and presents the opportunities to design scalable solutions leveraging distributed cluster environment architectures. Emphasis is put on the Hadoop and Spark frameworks, with practical examples of big data processing and analytical tasks in real-world applications.
In this course, we will be using the Python programming interface to the Apache Spark framework (PySpark), in combination with Databricks. You will be able to write and execute PySpark code directly in your browser, without worrying about standalone configuration, and leveraging free access to Databricks' powerful cloud infrastructure. This structure also facilitates collaborative coding.
Our course has joined the Databricks University Alliance, an active community of professors and educators who collaboratively share ideas to improve the teaching experience and provide students with most recent and relevant developments in terms of data science tools and concepts adopted in the industry. In order to start using Databricks, you can set up a free personal account (Community Edition). This option allows you to use Databricks on Amazon AWS for free. Instructions to sign up will be provided in the course.
| Date | Topic | Module | Deadlines |
|---|---|---|---|
| Week 1 | |||
| Aug 29 | Introduction to HPC | S1 | |
| Sep 1 | Big Data Analytics / NoSQL | S2 - S3 | |
| Week 2 | |||
| Sep 5 | Hadoop I | S4 | Install VM |
| Sep 8 | Hadoop II | S4 | |
| Week 3 | |||
| Sep 12 | Spark: Intro, RDDs & Databricks Platform | S5 | Create Databricks Account |
| Sep 15 | Spark: Dataframes | S5 | |
| Week 4 | |||
| Sep 19 | Spark: Transformations | S6 | |
| Sep 22 | Spark: Internals | S7 | |
| Week 5 | |||
| Sep 26 | Midterm Exam I | Pool of Papers Release | |
| Sep 29 | Spark: Structured Streaming / Delta Lakes | S8 | |
| Week 6 | |||
| Oct 3 | Spark: ML and MLlib / Linear Regression | S9 | |
| Oct 6 | Spark: MLflow / Decision Trees / Random Forest | S10 | |
| Week 7 | |||
| Oct 10 | Spark: HyperOpt / AutoML / XGBoost | S11 | |
| Oct 13 | Fall Break | / | |
| Week 8 | |||
| Oct 17 | Spark: MLlib Deployment / Pandas UDF / Koalas | S12 | |
| Oct 20 | Spark: Logistic Regression / Collaborative Filtering | S12 | |
| Week 9 | |||
| Oct 24 | Time Series Forecasting Graph Analysis: GraphX / Case Study / GraphFrames |
S13 | |
| Oct 27 | Spark: Deep Learning I | S14 | Paper critiques submission Project Assignment |
| Week 10 | |||
| Oct 31 | Spark: Deep Learning II | S15 | |
| Nov 3 | Spark: Deep Learning III | S15 | |
| Week 11 | |||
| Nov 7 | Spark: NLP I | S16 | |
| Nov 10 | Spark: NLP II | S16 | |
| Week 12 | |||
| Nov 14 | Spark: ML Deployment / ML in production | S17 / S18 | Project: Data Exploration / Pre-processing |
| Nov 17 | Midterm Exam II | ||
| Week 13 | |||
| Nov 21 | Spark: Performance Optimization I (Online) | S19 | Project: Modeling |
| Nov 24 | No class (Thanksgiving Week) | ||
| Week 14 | |||
| Nov 28 | Spark: Performance Optimization II | S19 | |
| Dec 1 | Paper Presentations | Project: Report draft | |
| Week 15 | |||
| Dec 5 | Paper Presentations | ||
| Dec 8 | Paper Presentations | Project submission | |
| Component | Weight |
|---|---|
| Midterm Exams (2) | 50% (2 x 25%) |
| Research Papers: 2 critiques + 1 presentation | 20% |
| Final Project | 30% |
| Component | Weight |
|---|---|
| Midterm Exams (2) | 40% (2 x 20%) |
| Research Papers: 3 critiques + 1 presentation | 20% |
| Final Project | 40% |
Students are recommended to attend all lectures. Prolonged absences must be discussed with the instructor. If you cannot attend lectures regularly, due to work or other obligations during remote learning, then please reach out to the instructor so that I know about it.
Exams cover the material from the lectures, projects, and reading. While not necessarily cumulative, each exam will require understanding many of the concepts covered in the preceding exams. Exams consist of multiple choice, short answer, and long answer questions. Each exam, except the final, is weighted equally.
For the Final Project, students will propose their own topic in consultation with the instructor.
A penalty of 5% per day will be levied. The course doesn’t grant extension on the homework/lab/project submission deadline unless you have an extremely compelling excuse as observance of a religious holiday (in which case you need to let me know in advance).
| Range | Letter |
|---|---|
| >=93 | A |
| >=90 | A- |
| >=87 | B+ |
| >=83 | B |
| >=80 | B- |
| >=77 | C+ |
| >=73 | C |
| >=70 | C- |
| >=60 | D |
| <60 | F |
Even though we encourage collaboration with a partner, sharing code between groups is strictly forbidden - this is a form of plagiarism. As is showing your work to other students, even just for a second. There is rarely one single correct way to write code that solves a problem. While we want you to feel free to discuss your approach freely with a partner, you should know that there are often many solutions for a given problem and it's typically obvious when one student shares code with another. If you directly copy and paste code from the Internet (or even the text), cite your source in your comments (but also ensure that you understand what the code is doing - not all code on the web is good!). Assignments will be checked using plagiarism detection software and by hand to ensure the originality of the work.
Do not share your code with anyone other than a partner. Do not let someone look at your screen. You may get behind, or your friend may ask for help, but the consequences for plagiarism are far worse than an incomplete submission - for the submission, you will still likely get some points. If I suspect that you have purposely shared code with another student or presented someone else's work as your own, the matter will be referred to the Academic Integrity Code Administrator for adjudication. If you are found responsible for an academic integrity violation, sanctions can include a failing grade for the course, suspension for one or more academic terms, dismissal from the university, or other measures as deemed appropriate by the Dean.
All students are expected to adhere to the American University Honor Code. If you have a question about whether or not something is permissible, ask the instructor or the TA first.
