Cluster and Cloud Computing

Subject COMP90024 (2014)

Note: This is an archived Handbook entry from 2014.

Credit Points: 12.50
Level: 9 (Graduate/Postgraduate)
Dates & Locations:

This subject is not offered in 2014.

Time Commitment: Contact Hours: 3 hours per week
Total Time Commitment:

200 hours

Prerequisites:
Subject
Study Period Commencement:
Credit Points:
Semester 1, Semester 2
12.50
Corequisites:

None

Recommended Background Knowledge:

None

Non Allowed Subjects:

None

Core Participation Requirements:

Contact

email: rsinnott@unimelb.edu.au

Subject Overview:

AIMS

The growing popularity of the Internet along with the availability of powerful computers and high-speed networks as low-cost commodity components are changing the way we do parallel and distributed computing (PDC). Cluster and Cloud Computding are two approaches for PDC. Clusters employ cost-effective commodity components for building powerful computers within local-area networks. Recently, “cloud computing” has emerged as the new paradigm for delivery of computing as services in a pay-as-you-go-model via the Internet. These approaches are used to tackle may research problems with particular focus on "big data" challenges that arise accross a variety of domains.

Some examples of scientific and industrial applications that use these computing platforms are: system simulations, weather forecasting, climate prediction, automobile modelling and design, high-energy physics, movie rendering, business intelligence, bigdata computing, and delivering various business and consumer applications on a pay-as-you-go basis.

This subject will enable students to understand these technologies, their goals, characteristics, and limitations, and develop both middleware supporting them and scalable applications supported by these platforms.

This subject is an elective subject in the Master of Information Technology and a mandatory for the Distributed Computing Specialisation. It can also be taken as an Advanced Elective subject in the Master of Engineering (Software).

INDICATIVE CONTENT

  • Cluster computing: elements of parallel and distributed computing, cluster systems architecture, resource management and scheduling, single system image, parallel programming paradigms, cluster programming with MPI
  • Utility computing: foundations and grid computing technologies
  • Cloud computing: cloud platforms, Virtualization, Cloud Application Programming Models (Task, Thread, and MapReduce), Cloud applications, and future directions in utility and cloud computing
  • "Big data" processing and analytics in distributed environments

Learning Outcomes:

INTENDED LEARNING OUTCOMES (ILO)

On completion of this subject the student is expected to:

  1. Be able to understand emerging distributed technologies
  2. Be able to design large-scale distributed systems
  3. Be able to implement high-performance cluster and cloud applications

Assessment:
  • A small assignment including a report (10%) in the area of HPC programming on clusters
  • Project work which includes a group project on the design and development of a cloud-based system and around 5000 words report (40%)
  • A 2 hour end-of-semester written examination (50%)

Hurdle requirement: To pass the subject students must obtain at least:

  • 25/50 in assignment/project work
  • And 25/50 in the end-of-semester written examination
  • Intended Learning Outcome (ILO) 1 is addressed in all assessment components. ILO 2 is addressed in the project work, ILO 3 in the first assignment

Prescribed Texts:

None

Breadth Options:

This subject is not available as a breadth subject.

Fees Information: Subject EFTSL, Level, Discipline & Census Date
Generic Skills:

On completion of this subjects students should have the following skills:

  • Have improved skills in teamwork and presentation of results
  • Be able to undertake problem identification, formulation and solution
  • Have a capacity for independent critical thought, rational inquiry and self-directed learning
  • Have a profound respect for truth and intellectual integrity, and for the ethics of scholarship
Notes:

LEARNING AND TEACHING METHODS

The subject will be delivered through a combination of lectures and both individual and team-based learning. In team-based learning, a group of students will jointly develop applications.

INDICATIVE KEY LEARNING RESOURCES

Students will have access to lecture notes and lecture slides. The subject LMS site also contains links to recommended literature and current survey papers of cluster and cloud computing principles.

CAREERS / INDUSTRY LINKS

Adoption of the technologies taught in this subject, and in particular cloud computing, is growing quickly. All the big players in the ICT market offer at least one product that is based on these technologies. Therefore, there are many opportunities for professionals that understand them and are able to develop applications and support software for them. Some examples of commercial companies playing a major role in Cloud computing area are: Amazon, IBM, Microsoft, Google, Oracle, CA, VMWare, and Citrix. The area of "Big data" is also one of the "hot topics" in great demand in the industry at present.

Related Course(s): Master of Engineering in Distributed Computing
Master of Information Technology
Master of Information Technology
Master of Information Technology
Master of Philosophy - Engineering
Master of Science (Computer Science)
Master of Software Systems Engineering
Ph.D.- Engineering
Related Majors/Minors/Specialisations: Computer Science
Master of Engineering (Software with Business)
Master of Engineering (Software)

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