UE 2 - Semestre 1 - Numerical resolution techniques for engineering

UE 2 - Semestre 1 - Numerical resolution techniques for engineering
Master Physique appliquée et ingénierie physiqueParcours Mécatronique, énergie et systèmes intelligents

ComposanteFaculté de physique et ingénierie
Credits3 crédits
Catalogue2026-2027

Description

  • Numerical resolution of linear systems of equations: direct methods (LU, Cholesky), iterative methods (Jacobi, Gauss-Seidel, relaxation, Krylov spaces, conjugate gradient). Sparse matrices.
  • Numerical resolution of non-linear systems of equations : Picard’s iterations, Newton and quasi Newton methods.
  • Numerical resolution of differential equations. One-step methods (Runge-Kutta). Multi-step methods. Stability notions.
  • Stiff problems, implicit methods.
  • Programming langage : C/C++ ; python.

Compétences visées

  • choose the numerical resolution technique best suited to solve a given engineering problem.
  • know how to use numerical techniques.
  • understand how numerical tools work.