Cloud Computing

linfo2145  2022-2023  Louvain-la-Neuve

Cloud Computing
5.00 credits
30.0 h + 15.0 h
Q1
Teacher(s)
Riviere Etienne;
Language
Prerequisites
You would already have passed LINGI2172 Databases
Main themes
  • Architectural principles of cloud computing
  • Scalability of cloud services (storage, computing, ...)
  • Building blocks for cloud services
  • Large scale computations in cloud environments
  • Programming models for cloud services
  • Providing scalable web services from the cloud
Learning outcomes

At the end of this learning unit, the student is able to :

1 Given the learning outcomes of the "Master in Computer Science and Engineering" program, this course contributes to the development, acquisition and evaluation of the following learning outcomes:
  • INFO1.1-3
  • INFO2.2-3, INFO2.5
  • INFO5.2, INFO5.4-5
  • INFO6.1, INFO6.3, INFO6.4
Given the learning outcomes of the "Master [120] in Computer Science" program, this course contributes to the development, acquisition and evaluation of the following learning outcomes:
  • SINF1.M1
  • SINF2.2-3, SINF2.5
  • SINF5.2, SINF5.4-5
  • SINF6.1, SINF6.3, SINF6.4
Students having completed this course successfully will be able to
  • explain the goals, benefits and models of cloud computing, providing practical examples
  • describe the main components of cloud computing
  • design and conceive cloud services which operate reliably at scale
  • explain how storage and virtualization are used in the cloud and apply this in practice
  • apply the fundamental principles of multi-tier web applications and services in a cloud environment
  • tackle big data computation problems (e.g., through the Map Reduce computing paradigm)
 
Content
This course focuses on the use and understanding of modern cloud computing technologies. It covers the systems aspects of dematerialized computing, including virtualization, storage, and fault tolerance; as well as software engineering aspects such as the construction of elastically scalable service-oriented applications backend. The course also covers data management and processing in the cloud, and its integration into cloud applications, as well as an introduction to advanced topics such as cloud security and decentralized trust. Concepts and tools covered in class are applied in a project where students build from the ground up a cloud-native backend for a representative application.
Teaching methods
  • Lectures
  • Scientific readings or/and videos from the industry
  • Quizzes (about readings, labs and lectures)
  • Practical lab sessions (tutorials)
  • Project
     
Evaluation methods
The final grade is computed as follows for the first session (January): 
  • Project 45%
  • Final exam 45%
  • Online quiz and peer review of other students work 10%
It will not be possible to redo the project or the quizzes for the second session. However, the scale for the second session (September) is changed to:
  • Project 45%
  • Final exam 55%
Continuous evaluation initially proposed with formative evaluation only could be graded and account for all or a part of the grade devoted to the final exam, if dictated by circumstances.
The professor may request a student to go through an additional oral exam as a complement of the final exam and/or of the project, in cases including, but not limited to, technical issues, or suspicion of irregularities.
The exam may use all or a subset of the following evaluation modalities. The respective proportion of points for each part is announced at the beginning of the exam:
  • open questions on the course content
  • open problems requiring an application of skills and knowledge acquired during the course
  • multiple-choice and multiple-answer questions under the principle of the "standard-setting". An incorrect answer to one of the questions cannot lead to a negative grade, and the exam part as a whole cannot grant negative points. However, a minimum threshold (announced in the exam) of correct answers is necessary before effectively acquiring points for this exam part.
Other information
Required background:
  • LINFO1252
Recommended background:
  • LINFO1341
  • LINFO1121
It is, in general, recommended to have good notions in networking, operating systems, and databases. The professor can advise supplementary reading to catch up on these topics upon request.
 
Faculty or entity
INFO


Programmes / formations proposant cette unité d'enseignement (UE)

Title of the programme
Sigle
Credits
Prerequisites
Learning outcomes
Master [120] in Data Science : Statistic

Master [120] in Computer Science and Engineering

Master [120] in Computer Science

Master [120] in Mathematical Engineering

Master [120] in Data Science Engineering

Master [120] in Data Science: Information Technology