Concept

Multigrid method

Related lectures (17)

Solving the linear system - Nonlinearity

Explores solving linear systems and addressing nonlinearity in numerical flow simulations using multigrid and linearization methods.

Transporters: a proxy for parallel transport

Explores transporters as a practical alternative to parallel transport, discussing minimal requirements, examples with matrices, pragmatic choices, and optimization algorithms.

Runge Kutta and Multistep Methods

Explores Runge Kutta and multistep methods for solving ODEs, including Backward Euler and Crank-Nicolson.

Numerics: semester project

Covers the semester project on numerics, focusing on adaptive algorithms and multistep methods.

Manopt: Optimization on Manifolds

Introduces Manopt, a toolbox for optimization on manifolds, covering gradient and Hessian checks, solver calls, and manual caching.

ODE Solvers: Runge-Kutta, Multistep Methods

Explores Runge-Kutta and multistep methods for solving ODEs, comparing their accuracy and efficiency.

Iterative Methods: Linear Systems

Explores iterative methods for solving linear systems, including Jacobi and Gauss-Seidel methods, Cholesky factorization, and preconditioned conjugate gradient.

Error Estimation in Numerical Methods

Explores error estimation in numerical methods for solving ordinary differential equations, emphasizing the impact of errors on solution accuracy and stability.

System of ODEs

Explores numerical methods for solving ODE systems, stability regions, and absolute stability importance.

Solving the linear system: Iterative methods

Explores iterative methods for solving linear systems and multigrid concepts to improve accuracy and convergence.

Iterative Methods: Linear Systems

Covers iterative methods for solving linear systems and discusses convergence criteria and spectral radius.

Ordinary Differential Equations: Methods and Applications

Explores ordinary differential equations and numerical integration methods for stability and accuracy.

Jacobi and Gauss-Seidel methods

Explains the Jacobi and Gauss-Seidel methods for solving linear systems iteratively.

Three-Phase Systems: Bias in Judgment and Power Analysis

Explores bias in judgment and power analysis in three-phase systems, including symmetrical and non-symmetrical configurations, load connections, and transient circuits.

Computational Geomechanics: Week 4

Explores boundary conditions, time variation in porous media, and storage coefficients in matrices.

Linear Differential Equations: Methods and Solutions

Covers methods for solving first-order linear ordinary differential equations.

Conjugate Gradient Method: Iterative Optimization

Covers the conjugate gradient method, stopping criteria, and convergence properties in iterative optimization.