Concept

Continuous simulation

Related lectures (18)

Explores turbulence characteristics, simulation methods, and modeling challenges, providing guidelines for choosing and validating turbulence models.

Convection: Numerical Flow Simulation

Explores discretization schemes for convection-diffusion problems and introduces TVD schemes for higher-order accuracy.

Discrete Event Simulation

Covers discrete event simulation using digital circuits, base components, complex components, and simulation implementation.

Numerical Methods in Matlab

Covers derivation, integration, and simulation in Matlab, along with the representation of numbers and potential errors.

Numerical Flow Simulation: Fundamentals

Covers the fundamentals of numerical flow simulation, emphasizing the importance of understanding the methodology and practicing simulation techniques to run full simulations autonomously.

Optimization and Simulation: Introduction to Simulation

Introduces state-of-the-art methods in optimization and simulation, covering topics like statistical analysis, variance reduction, and simulation projects.

Computation, Verification and Validation

Emphasizes the impact of boundary conditions on solution convergence in numerical flow simulation and discusses the choice between pressure-based and density-based solvers.

Fault Simulation in VLSI Testing

Explores fault simulation in VLSI testing, covering fault coverage, fault models, algorithms, types of simulators, deductive simulation, and fault propagation rules.

Simulation-Based Verification

Explores simulation-based verification in VLSI systems using compiled-code and event-driven algorithms.

Numerical Flow Simulation: Methodology and Applications

Explores numerical flow simulation methodology, physical problems of Maglev vehicles, Vactrain, and Hyperloop concepts, along with simulation goals and challenges.

Verification and validation

Covers the verification and validation process in numerical flow simulation, ensuring credibility of simulation outcomes.

Geometry and Meshing

Covers the basics of geometry modeling and meshing for numerical flow simulation, including mesh quality metrics and different meshing algorithms.

Numerical Flow Simulation: Procedures and Results

Covers solver procedures and results of a numerical flow simulation.

Turbulence: Numerical Flow Simulation

Explores the challenges of turbulence, simple turbulent flows, and numerical simulation methods.

Parallel Calculation; Visualization

Explores parallel computation in CFD, emphasizing its implementation in Fluent and visualization techniques for scientific data interpretation.

Numerical Flow Simulation: Basics and Boundary Conditions

Covers the basics of numerical flow simulation, including boundary conditions and geometry reduction.

Turbulence: Modeling and Simulation

Explores turbulence modeling in fluid dynamics, covering RANS equations, various turbulence models, and their implementation in numerical simulations.

Solving the linear system: Direct methods

Covers the process of solving a linear system in numerical flow simulation using direct methods like Gaussian elimination and the TDMA algorithm.