Postgraduate Course: Practical Introduction to High Performance Computing (INFR11184)
|School||School of Informatics
||College||College of Science and Engineering
|Credit level (Normal year taken)||SCQF Level 11 (Postgraduate)
|Course type||Online Distance Learning
||Availability||Not available to visiting students
|Summary||High Performance Computing (HPC) is a fundamental technology used in solving scientific and commercial problems. Many of the grand challenges of science depend on simulations and models run on HPC facilities to make progress, for example: protein folding, the search for the Higgs boson and developing nuclear fusion. In industry, sophisticated computer models are integral to the development of products such as jet engines, wind turbines and new drugs.
Modern supercomputers are parallel computers, gaining their power from many thousands of individual processors. Developing software to run on these systems requires using new parallel programming techniques.
The course will cover all the fundamental concepts that underpin modern HPC. The course is practical in the sense that you will explore these topics by running parallel programs on real HPC systems such as the UK national supercomputer ARCHER.
The course will be delivered entirely online, and videos, notes and exercises will be released as the course progresses.
N.B. This has a non-standard duration (20 weeks) which will be incompatible with many programmes.
Modern supercomputers are parallel computers, gaining their power from many thousands of individual processors. Developing software to run on these systems requires using new parallel programming technologies. The course will cover all the fundamental concepts that underpin modern HPC. The course is practical in the sense that you will explore these topic by running parallel programs on real HPC systems such as the UK national supercomputer ARCHER. The same techniques can also be applied to smaller systems such as multi-core desktops, graphics processors and computing clusters.
The course has three main themes:
1) Hardware, Architectures, System Software
How are HPC systems constructed and what impact do components play in performance of applications? What system software is used on HPC systems and how does it impact the user experience?
2) Parallel Programming
What are the key parallel programming paradigms in use on modern HPC systems and how are they implemented and made available to users in practice? How do you measure parallel performance and scaling? How do you debug and profile parallel applications?
3) Applications on HPC systems
What types of applications run on modern HPC systems and what are the limiting factors to scaling and performance in these areas? What does the future hold for HPC applications - how will they run on next generation HPC systems.
Entry Requirements (not applicable to Visiting Students)
||Other requirements|| None
Course Delivery Information
|Not being delivered|
On completion of this course, the student will be able to:
- Understand the key components of HPC architectures and how they are put together to form complete systems
- Be able to build and test code in a Linux/Unix environment, execute in parallel and understand the stages involved.
- Compare and contrast the message-passing and multithreaded parallel programming models, and describe four key parallelisation strategies used in modern HPC codes.
- Understand the importance of performance and Amdahl's law, and measure and comment on the performance of parallel codes.
- Explain the current uses of HPC and the key issues for HPC in the future.
|There is no single compulsory course text. Pointers to appropriate material will be made available online.|
|Graduate Attributes and Skills
||- Critical thinking
- Communication of complex ideas in accessible language
- Working in an interdisciplinary field
- Programming and Scripting
||Priority given to students on the Data Science, technology and Innovation Online Learning Programme.
|Keywords||High Performance Computing,Practical,HPC,Parallelism,Parallel Programming,Hardware,Software
|Course organiser||Dr David Henty
Tel: (0131 6)50 5960
|Course secretary||Mr Ben Morse
Tel: (0131 6)51 3398