Distributed Systems (DAT520)
The course gives insight into both theoretical and practical aspects of distributed computing systems, particularly techniques for building fault-tolerant systems.
Course description for study year 2024-2025
Course code
DAT520
Version
1
Credits (ECTS)
10
Semester tution start
Spring
Number of semesters
1
Exam semester
Spring
Language of instruction
English
Content
The course gives insight into important theoretical principles of distributed computing, including system models for interaction and failure, interprocess communication, synchronization, time and global states, protocols for coordination and consensus (Paxos), distributed transactions, fault tolerance, consistency, and replication. The course also covers concrete systems and architectures for distributed systems: map-reduce, distributed hash tables, peer-to-peer systems, gossip-based systems, and distributed file and storage systems.
The course also includes a significant programming project based on concepts and algorithms studied in class, in which the student must show how these can be implemented in practice.
The programming project in this course shall be implemented using the Go programming language.
Learning outcome
Knowledge
- Be familiar with important principles for the design and implementation of distributed systems.
- Be familiar with the most common system architectures for distributed systems.
- Be familiar with essential techniques for solving various problems in distributed systems.
Skills
- Be able to develop advanced distributed applications with fault tolerance properties.
- Be able to perform independent research in distributed systems.
- Be able to reason about problems that involve distributed components.
General competency
- Know how to develop distributed computer systems.
Required prerequisite knowledge
Recommended prerequisites
Exam
Form of assessment | Weight | Duration | Marks | Aid |
---|---|---|---|---|
Written exam | 1/1 | 4 Hours | Letter grades | None permitted |
Digital exam.
Coursework requirements
Mandatory programming assignments. Pass/Fail. You must submit your solution to our system for automated evaluation, followed by in-lab approval. All programming assignments must be passed to sit for the written exam.
Completion of mandatory lab assignments is to be made at the times and in the assigned groups. Absence due to illness or other reasons must be communicated as soon as possible to the laboratory personnel. One cannot expect that provisions for completion of the lab assignments at other times are made unless prior arrangements with the laboratory personnel have been agreed upon.
Failure to complete the assigned labs on time or not having them approved will result in being barred from sitting for the exam in the course.
Course teacher(s)
Course coordinator:
Hein MelingHead of Department:
Tom RyenMethod of work
Overlapping courses
Course | Reduction (SP) |
---|---|
Distributed systems (MID110_1) | 10 |