Faculty of Information Technology, BUT

Course details

Parallel System Architecture and Programming

ARC Acad. year 2007/2008 Summer semester 5 credits

The course covers architecture and programming of parallel systems with functional- and data-parallelism. First the parallel system theory and program parallelization are discussed. The description of the most proliferated multi-core and multi-processor symmetrical multiprocessors (SMP) follows and their programming in OpenMP environment is dealt with. The course goes on  with the treatment of interconnection networks, a basic structure for popular networks of workstations and other message-passing systems. Their programming in standardized interfaces MPI and PVM is illustrated with case studies of parallel applications. In conclusion the advanced DSM NUMA systems are described. 

Guarantor

Language of instruction

Czech

Completion

Credit+Examination (written)

Time span

39 hrs lectures, 13 hrs projects

Assessment points

Department

Lecturer

Instructor

Subject specific learning outcomes and competences

Overview of principles of parallel system design and of interconnection networks, communication techniques and algorithms. Survey of parallelization techniques of fundamental scientific problems, knowledge of parallel programming in MPI and OpenMP.

Generic learning outcomes and competences

Knowledge of capabilities and limitations of parallel processing, ability to estimate performance of parallel applications. Language means for process/thread communication and synchronization. Competence in hardware-software platforms for high-performance computing and simulations.

Learning objectives

To orientate oneself in parallel systems on the market, be able to assess communication and computing possibilities of a particular architecture and to predict the performance of parallel applications. To get acquainted with the most important parallel programming tools (MPI, OpenMP), to learn their practical use and solving problems in parallel.

Prerequisite kwnowledge and skills

Von-Neumann computer architecture, computer memory hierarchy, cache memories and their organization, programming in assembly and in C/C++.

Study literature

  • Hennessy, J.L., Patterson, D.A.: Computer Architecture - A Quantitative Approach. 4. vydání, Morgan Kaufman Publishers, Inc., 2007, 1136 p., ISBN 1-55860-596-7.  

Fundamental literature

  • Culler, D.E.: Parallel Computer Architecture - A Hardware / Software Approach. Morgan Kaufmann Publ., 1999, 1025 p., ISBN 1-55860-343-3.
  • Quinn, M.J: Parallel Programming in C with MPI and OpenMP. McGraw Hill, 2004, 529 p., ISBN: 0072822562.
  • Dally, W.J., Towles, B.: Principles and Practices of Interconnection Networks. Morgan Kaufman Publ., 2004, 550 p., ISBN:0-12-200751-4.

Syllabus of lectures

  • Function- and data-parallelism, performance measures, overhead, speedup-limiting laws.
  • Program parallelization, decomposition, task scheduling.
  • Shared memory multiprocessors. Bus saturation, crossbar, arbiters, memory organization.
  • Cache coherence, MSI and MESI protocols. Memory consistency models. 
  • OpenMP, loop parallelization.
  • Synchronization in OpenMP, locks and barriers.
  • Performance oriented parallel programming.
  • Interconnection and switching networks, routing algorithms.
  • Flow control, router architecture.
  • Messaging, collective communications and communication performance. 
  • Message-passing programming (MPI). 
  • Cluster computing with pairwise and group communication.  
  • Distributed (shared) memory NUMA architectures. 

Syllabus of numerical exercises

Tutorials are not scheduled for this course.

Syllabus - others, projects and individual work of students

  • n - body(particle) problem, performance prediction on a cluster. 
  • Evolution of a thermal field by means of Jacobi iterations  on a SMP in OpenMP.
  • Evolution algorithms on a blade center.

Progress assessment

Three small projects in duration of 5, 4 a 4 hours ; midterm examination.

Exam prerequisites

To complete successfuly session work and be able to write examination, one has to get at leat 20 points out of maximum 40.

Course inclusion in study plans

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