Optimized Schwarz methods in spherical geometry with an overset grid system
نویسندگان
چکیده
In recent years, much attention has been given to domain decomposition methods for solving linear elliptic problems that are based on a partitioning of the domain of the physical problem. More recently, a new class of Schwarz methods known as optimized Schwarz methods was introduced to improve the performance of the classical Schwarz methods. In this paper, we investigate the performance of this new class of methods for solving the model equation (η − ∆)u = f , where η > 0, on spherical geometry. This equation arises in a global weather model as a consequence of an implicit (or semi-implicit) time discretization. We show that the Schwarz methods improved by a non-local transmission condition converges in a finite number of steps. A local approximation permits the use of the new method on a new overset grid system on the sphere called the Yin-Yang grid.
منابع مشابه
Development of Numerical Methods for Geodynamo and Mantle Convection Simulations
2. Development of New Spherical Grid: Yin-Yang Grid Since the finite difference method enables us to make highly optimized programs for massively parallel computers, we exploit the possibility of the finite difference method for simulations in spherical shell geometry with radius r (ri ≤ r ≤ ro), colatitude θ (0 ≤ θ ≤ π), and longitude φ (0 ≤ φ < 2π). Because there is no grid mesh that is ortho...
متن کاملApplication of the Schwarz-Christoffel Transformation in Solving Two-Dimensional Turbulent Flows in Complex Geometries
In this paper, two-dimensional turbulent flows in different and complex geometries are simulated by using an accurate grid generation method. In order to analyze the fluid flow, numerical solution of the continuity and Navier-Stokes equations are solved using CFD techniques. Considering the complexity of the physical geometry, conformal mapping is used to generate an orthogonal grid by means of...
متن کاملModelling , Analysis and Simulation Application of a Chimera Technique to the Computation of Subsonic and Transonic Bi - Airfoil Flows
CWI's research has a theme-oriented structure and is grouped into four clusters. Listed below are the names of the clusters and in parentheses their acronyms. ABSTRACT This paper describes the application of a composite overset-grid technique to flow computations around a two-dimensional bi-plane. The flow is described by the steady, 2D, compressible Euler equations of gas dynamics. The discret...
متن کاملStrategies Toward Automation of Overset Structured Surface Grid Generation
In recent years, structured overset grid technology has been successfully applied to computational fluid dynamics analysis on a wide variety of complex aerospace applications.1–11 While structured overset grid flow solvers such as OVERFLOW12 and LAVA13 are highly e cient relative to typical flow solvers utilizing unstructured grids, structured overset grid generation remains a labor intensive a...
متن کاملGeodynamo and mantle convection simulations on the Earth Simulator using the Yin–Yang grid
We have developed finite difference codes based on the Yin-Yang grid for the geodynamo simulation and the mantle convection simulation. The Yin-Yang grid is a kind of spherical overset grid that is composed of two identical component grids. The intrinsic simplicity of the mesh configuration of the Yin-Yang grid enables us to develop highly optimized simulation codes on massively parallel superc...
متن کامل