We present a domain decomposition approach for the computation of the
electromagnetic field within periodic structures. We use a
Schwarz method with transparent boundary conditions at the interfaces of
the domains. Transparent boundary conditions are approximated by the
perfectly matched layer method (PML). To cope with Wood anomalies
appearing in periodic structures an adaptive strategy to determine
optimal PML parameters is developed. \\ We focus on the application to
typical EUV lithography line masks. Light propagation within the
multi-layer stack of the EUV mask is treated analytically. This results
in a drastic reduction of the computational costs and allows for the
simulation of next generation lithography masks
on a standard personal computer.
The PSurface Library
(2010)
We describe psurface, a C++ library that allows to store and access piecewise linear mappings between simplicial surfaces in $\R^2$ and $\R^3$. These mappings are stored in a graph data structure and can be constructed explicitly, by projection, or by surface simplification. Piecewise linear maps can be used, e.g., to construct boundary
approximations for finite element grids, and grid intersections for domain decomposition methods. In computer graphics the mappings allow to build level-of-detail representations as well as texture- and bump maps. We document the data structures and algorithms used and show how \psurface is used in the numerical analysis framework Dune
and the visualization software Amira.
This paper presents concepts and implementation of the finite element toolbox Kaskade 7, a flexible C++ code for solving elliptic and parabolic PDE systems. Issues such as problem formulation, assembly and adaptivity are discussed at the example of optimal control problems. Trajectory compression for parabolic optimization problems is considered as a case study.
We present an extension module for the Dune system. This module, called dune-subgrid, allows to mark elements of another Dune hierarchical grid. The set of marked elements can then be accessed as a Dune grid in its own right. dune-subgrid is free software and is available for download. We describe the functionality and use of dune-subgrid, comment on its implementation, and give two example applications.
First, we show how dune-subgrid can be used for micro-FE simulations of trabecular bone. Then we present an algorithm that allows to use exact residuals for the adaptive solution of the spatial problems of time-discretized evolution equations.