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Här visas ändringar i "Methods in Scientific Computing (DD2363), 7.5hp, Spring 2017" mellan 2017-01-05 13:11 av Johan Hoffman och 2017-01-05 23:21 av Johan Hoffman.
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Methods in Scientific Computing (DD2365), 7.5hp, Spring 2017
Course goals The goal of the course is to present general and efficient numerical methods and algorithms for basic models of computational science, in particular particle models, ordinary differential equations (ODE) and partial differential equations (PDE). Research challenges in the field are highlighted, e.g. with respect to parallel and distributed computing.
Teachers Johan Hoffman
Johan Jansson
Niclas Jansson
Literature TBA
Lab modules Lab 1: Krylov methods Lab 2: ODE time stepping Lab 3: FEM assembly Lab 4: PDE/FEM in 1D/2D Lab 5: Adaptive FEM Lab 6: Optimization
Week plan Week 1
* Lecture 1: Vector spaces
* Lecture 2: Linear transformations
* Lecture 3: Linear systems of equations - Direct methods
Week 2
* Lecture 4: Eigenvalue problems
* Lecture 5: Iterative methods - Krylov methods
* Lab 1: Krylov methods
Week 3
* Lecture 6: Nonlinear equations - Newton method
* Lecture 7: ODE - Time stepping/quadrature in 1D
* Lab 2: ODE time stepping
Week 4
* Lecture 8: ODE models
* Lecture 9: Function approximation - Piecewise polynomials, interpolation, LS/L2-projection
* Lecture 10: Quadrature in 2D/3D - Quadrature, mesh, reference element, assembly
Week 5
* Lecture 11: PDE - 1D BVP model problems
* Lecture 12: PDE - 2D/3D BVP model problems
* Lecture 13: PDE - IVP PDE, semi discretization
Week 6
* Lecture 14: Optimization - Adaptive FEM
* Lecture 15 Optimization - Quadratic programmingOptimal control
* Lecture 16: Course review
Week 7
* Lab 3: FEM Assembly
* Lab 4: FEM 1D/2D
* Lab 5: Adaptive FEM
Week 8
* Lab 6: Optimization
* Lab 7: Lab review
* Lab 8: Lab review
Week 9 Written exam