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1

Electronic Resource

Adaptive multivlevel methods in three space dimensions (1993)

Bornemann, Folkmar ; Erdmann, Bodo ; Kornhuber, Ralf

Chichester [u.a.] : Wiley-Blackwell

International Journal for Numerical Methods in Engineering 36 (1993), S. 3187-3203

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ISSN: 0029-5981

Keywords: Engineering ; Engineering General

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Mathematics , Technology

Notes: We consider the approximate solution of self-adjoint elliptic problems in three space dimensions by piecewise linear finite elements with respect to a highly non-uniform tetrahedral mesh which is generated adaptively. The arising linear systems are solved iteratively by the conjugate gradient method provided with a multilevel preconditioner. Here, the accuracy of the iterative solution is coupled with the discretization error. As the performance of hierarchical bases preconditioners deteriorates in three space dimensions, the BPX preconditioner is used, taking special care of an efficient implementation. Reliable a posteriori estimates for the discretization error are derived from a local comparison with the approximation resulting from piecewise quadratic elements. To illustrate the theoretical results, we consider a familiar model problem involving reentrant corners and a real-life problem arising from hyperthermia, a recent clinical method for cancer therapy.

Additional Material: 16 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/nme.1620361808

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Paper (German National Licenses)

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2

Book

Anisotropic Simulation of the Human Mandible /; ZIB-Report 04-12 (2004)

Kober, Cornelia ; Erdmann, Bodo ; Hellmich, Christian ; [et al.]

Berlin :Konrad-Zuse-Zentrum für Informationstechnik,

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Title: Anisotropic Simulation of the Human Mandible /; ZIB-Report 04-12

Author: Kober, Cornelia

Contributer: Erdmann, Bodo , Hellmich, Christian , Sader, Robert , Zeilhofer, Hans-Florian

Publisher: Berlin :Konrad-Zuse-Zentrum für Informationstechnik,

Year of publication: 2004

Pages: 16 S.

Series Statement: ZIB-Report ZIB-Report 04-12

ISSN: 1438-0064

Type of Medium: Book

Language: English

URL: http://www.zib.de/Publications/Reports/ZR-04-12.pdf

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ZIB Catalog

Zuse Institute Berlin

3

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Adaptive Multilevel-Methods for Obstacle Problems in Three Space Dimensions. (1993)

Erdmann, Bodo ; Hoppe, Ronald H. W. ; Kornhuber, Ralf

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Publication Date: 2020-10-02

Description: We consider the discretization of obstacle problems for second order elliptic differential operators in three space dimensions by piecewise linear finite elements. Linearizing the discrete problems by suitable active set strategies, the resulting linear sub--problems are solved iteratively by preconditioned cg--iterations. We propose a variant of the BPX preconditioner and prove an $O(j)$ estimate for the resulting condition number. To allow for local mesh refinement we derive semi--local and local a posteriori error estimates. The theoretical results are illustrated by numerical computations.

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Language: English

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Adaptive Time-Space Discretization for Combustion Problems (1997)

Lang, Jens ; Erdmann, Bodo ; Roitzsch, Rainer

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Publication Date: 2019-05-10

Description: We present a self--adaptive finite element method to solve combustion problems in 1D, 2D, and 3D. An implicit time integrator of Rosenbrock type is coupled with a multilevel approach in space. A posteriori error estimates are obtained by constructing locally higher order solutions involving all variables of the problem. Adaptive strategies such as step size control, spatial refinement and coarsening allow us to get economically an accurate solution. Various examples are presented to demonstrate practical applications of the proposed method.

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Language: English

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Three-Dimensional Fully Adaptive Solution of Thermo-Diffusive Flame Propagation Problems (1997)

Lang, Jens ; Erdmann, Bodo ; Roitzsch, Rainer

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Publication Date: 2019-05-10

Description: In this paper we present a self--adaptive finite element method to solve flame propagation problems in 3D. An implicit time integrator of Rosenbrock type is coupled with a multilevel approach in space. The proposed method is applied to an unsteady thermo--diffusive combustion model to demonstrate its potential for the solution of complicated problems.

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The Benefits of Modularization: from KASKADE to KARDOS (1998)

Roitzsch, Rainer ; Erdmann, Bodo ; Lang, Jens

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Publication Date: 2019-05-10

Description: KARDOS solves nonlinear evolution problems in 1, 2, and 3D. An adaptive multilevel finite element algorithm is used to solve the spatial problems arising from linearly implicit discretization methods in time. Local refinement and derefinement techniques are used to handle the development of the mesh over time. The software engineering techniques used to implement the modules of the KASKADE toolbox are reviewed and their application to the extended problem class is described. A notification system and dynamic construction of records are discussed and their values for the implementation of a mesh transfer operation are shown. The need for low-level and high--level interface elements of a module is discussed for the assembling procedure of KARDOS. At the end we will summarize our experiences.

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Kaskade Manual - Version 2.0. (1993)

Erdmann, Bodo ; Lang, Jens ; Roitzsch, Rainer

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Publication Date: 2019-05-10

Description: The KASKADE toolbox defines an interface to a set of C subroutines which can be used to implement adaptive multilevel Finite Element Methods solving systems of elliptic equations in two and three space dimensions. The manual contains the description of the data structures and subroutines. The main modules of the toolbox are a runtime environment, triangulation and node handling, assembling, direct and iterative solvers for the linear systems, error estimators, refinement strategies, and graphic utilities. Additionally, we included appendices on the basic command language interface, on file formats, and on the definition of the partial differential equations which can be solved. The software is available on the ZIB ftp--server {\tt elib} in the directory {\tt pub/kaskade}. TR 93--5 supersedes TR 89--4 and TR 89--05.

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KASKADE 3.0 - An Object Oriented Adaptive Finite Element Code (1995)

Beck, Rudolf ; Erdmann, Bodo ; Roitzsch, Rainer

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Publication Date: 2019-05-10

Description: KASKADE 3.0 was developed for the solution of partial differential equations in one, two, or three space dimensions. Its object-oriented implementation concept is based on the programming language C++$\,$.~Adaptive finite element techniques are employed to provide solution procedures of optimal computational complexity. This implies a posteriori error estimation, local mesh refinement and multilevel preconditioning. The program was designed both as a platform for further developments of adaptive multilevel codes and as a tool to tackle practical problems. Up to now we have implemented scalar problem types like stationary or transient heat conduction. The latter one is solved with the Rothe method, enabling adaptivity both in space and time. Some nonlinear phenomena like obstacle problems or two-phase Stefan problems are incorporated as well. Extensions to vector-valued functions and complex arithmetic are provided. %Such free boundary problems ... We have implemented several iterative solvers for both symmetric and unsymmetric systems together with multiplicative and additive multilevel preconditioners. Systems arising from the nonlinear problems can be solved with lately developed monotone multigrid methods. %An object-oriented concept was chosen for KASKADE~3.0, based on the programming %language C++$\,$. This should provide the desired extensibilty and clearly %reflect the structure of the code. %A direct sparse matrix solver (Harwell MA28) is included.

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KASKADE 3.0 User's Guide (1995)

Beck, Rudolf ; Erdmann, Bodo ; Roitzsch, Rainer

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Publication Date: 2019-05-10

Description: KASKADE 3.x was developed for the solution of partial differential equations in one, two, or three space dimensions. Its object-oriented implementation concept is based on the programming language C++$\,$.~Adaptive finite element techniques are employed to provide solution procedures of optimal computational complexity. This implies a posteriori error estimation, local mesh refinement and multilevel preconditioning. The program was designed both as a platform for further developments of adaptive multilevel codes and as a tool to tackle practical problems. Up to now we have implemented scalar problem types like stationary or transient heat conduction. The latter one is solved with the Rothe method, enabling adaptivity both in space and time. Some nonlinear phenomena like obstacle problems or two-phase Stefan problems are incorporated as well. Extensions to vector-valued functions and complex arithmetic are provided. This report helps to work with KASKADE Especially we \begin{itemize} \setlength{\parskip}{0ex} \item [{\bf --}] study a set of examples, \item [{\bf --}] explain how to define a user's problem and \item [{\bf --}] introduce a graphical user interface. \end{itemize} We are extending this guide continuously. The latest version is available by network.

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KARDOS - User"s Guide (2002)

Erdmann, Bodo ; Lang, Jens ; Roitzsch, Rainer

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Publication Date: 2019-05-10

Description: The adaptive finite element code {\sc Kardos} solves nonlinear parabolic systems of partial differential equations. It is applied to a wide range of problems from physics, chemistry, and engineering in one, two, or three space dimensions. The implementation is based on the programming language C. Adaptive finite element techniques are employed to provide solvers of optimal complexity. This implies a posteriori error estimation, local mesh refinement, and preconditioning of linear systems. Linearely implicit time integrators of {\em Rosenbrock} type allow for controlling the time steps adaptively and for solving nonlinear problems without using {\em Newton's} iterations. The program has proved to be robust and reliable. The user's guide explains all details a user of {\sc Kardos} has to consider: the description of the partial differential equations with their boundary and initial conditions, the triangulation of the domain, and the setting of parameters controlling the numerical algorithm. A couple of examples makes familiar to problems which were treated with {\sc Kardos}. We are extending this guide continuously. The latest version is available by network: {\begin{rawhtml} 〈A href="http://www.zib.de/Numerik/software/kardos/"〉 〈i〉 Downloads.〈/i〉〈/a〉 \end{rawhtml}}

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