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Scientific Computing

YFX1510
Physics and Energy

Over deze cursus

The course „Scientific Computing“ will present an overview of HPC hardware, programming languages and numerical methods for different problems, and introduce the student to reproducibility. List of topics:

  • literate programming, reproducible research

  • general aspects of HPC and Scientific Computing (hardware, Amdahl's law)

  • overview of numerical methods: FEM, CFD, particle based methods, iterative methods for systems of linear equations

  • parallel programming: OpenMP, MPI, optimization

  • data races, deadlocks and other parallel-programming pitfalls and finding these Exercises, project and homeworks will be solved in groups of two, preferably the groups are composed of students of different curricula.

NB! This course will take place in spring semester 2024/2025 which starts on 3rd of February and ends on 16th of June (you can find that information under Start date section). The real course start and end dates will be announced at the beginning of February at the latest.

Leerresultaten

The student is able to:

  • recognize complex problems;
  • choose suitable numerical method;
  • choose suitable programming language;
  • choose suitable computer architecture;
  • write and debug simple parallel code;
  • document the simulation and results in a reproducible way.

Toetsing

Final assessment can consist of one test/assignment or several smaller assignments completed during the whole course. After declaring a course the student can re-sit the exam/assessment once. Assessment can be graded or non-graded. For specific information about the assessment process please get in touch with the contact person of this course. For specific information about grade transfer please contact your home university

Voorkennis

knowledge of linear algebra, analysis, basic programming skills

Bronnen

  • * Reprocible research: http://ropensci.github.io/reproducibility-guide/
  • Bathe: Finite Element Procedures ISBN-13: 978-0979004957
  • * Alberty, Carstensen, Funken: Remarks around 50 lines of Matlab: short finite element implementation, Numer. Algorithms, volume 20, 1999 https://www.math.hu-berlin.de/~cc/cc_homepage/download/1999-AJ_CC_FS-50_Lines_of_Matlab.pdf
  • * Grossmann, Roos, Stynes: Numerical Treatment of Partial Differential Equations ISBN 978-3-540-71584-9
  • * Eymard, Galloyet, Herbin: Finite Volume Methods https://www.cmi.univ-mrs.fr/~herbin/PUBLI/bookevol.pdf
  • * Leveque: Finite Volume Methods For Hyperbolic Problems https://archive.org/details/FiniteVolumeMethodsForHyperbolicProblemsRandallJ.Leveque
  • * Saad: Iterative methods for sparse linear systems http://www-users.cs.umn.edu/~saad/books.html
  • * Parlante: Essential C: http://cslibrary.stanford.edu/101/EssentialC.pdf
  • * Burch: C for Python Programmers: http://www.toves.org/books/cpy/
  • * Jorgensen: Introduction to Programming using Fortran 95/2003/2008 http://www.egr.unlv.edu/~ed/fortranv3.pdf
  • * MPI standard: http://mpi-forum.org/docs/
  • * OpenMP: http://www.openmp.org/specifications/
  • * OpenCL: https://www.khronos.org/registry/OpenCL/
  • * Valgrind manual: http://valgrind.org/docs/manual/manual.html
  • * Eijkhout: Introduction to High-Performance Scientific Computing Lulu 2015 ISBN 978-1-25799-254-6

Activiteiten

lectures, exercises

Aanvullende informatie

  • Studiepunten
    ECTS 6
  • Niveau
    Master
  • Contact uren per week
    4
  • Instructeurs
    Heiko Jens Herrmann
  • Instructievorm
    Hybrid
Als er nog iets onduidelijk is, kijk even naar de FAQ van TalTech (Estonia).

Aanbod

  • Startdatum

    3 februari 2025

    • Einddatum
      16 juni 2025
    • Periode *
      Spring semester 2025
    • Voertaal
      Engels
    • Inschrijven tussen
      29 okt - 29 nov 2024
    Nog 8 dagen om in te schrijven
    Apply now
Dit aanbod is voor studenten van TUM (Germany)