Jan Mandel scite author profile

SUMMARYThe Neumann-Neumann algorithm is known to be an efficient domain decomposition preconditioner with unstructured subdomains for iterative solution of finiteelement discretizations of difficult problems with strongly discontinuous coefficients (De Roeck and Le Tallec, 1991). However, this algorithm suffers from the need to solve in each iteration an inconsistent singular problem for every subdomain, and its convergence deteriorates with increasing number of subdomains due to the lack of a coarse problem to propagate the error globally. We show that the equilibrium conditions for the singular problems on subdomains lead to a simple and natural construction of a coarse problem. The construction is purely algebraic and applies also to systems such as those that arise in elasticity. A convergence bound independent of the number of subdomains is proved and results of computational tests are reported.

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Coupled atmosphere-wildland fire modeling with WRF 3.3 and SFIRE 2011

Mandel

2011

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Abstract. We describe the physical model, numerical algorithms, and software structure of a model consisting of the Weather Research and Forecasting (WRF) model, coupled with the fire-spread model (SFIRE) module. In every time step, the fire model inputs the surface wind, which drives the fire, and outputs the heat flux from the fire into the atmosphere, which in turn influences the atmosphere. SFIRE is implemented by the level set method, which allows a submesh representation of the burning region and a flexible implementation of various kinds of ignition. The coupled model is capable of running on a cluster faster than real time even with fine resolution in dekameters. It is available as a part of the Open Wildland Fire Modeling (OpenWFM) environment at http://openwfm.org, which contains also utilities for visualization, diagnostics, and data processing, including an extended version of the WRF Preprocessing System (WPS). The SFIRE code with a subset of the features is distributed with WRF 3.3 as WRF-Fire.

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An algebraic theory for primal and dual substructuring methods by constraints

Mandel

Dohrmann

Tezaur

2005

Applied Numerical Mathematics

211

256

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Optimal convergence properties of the FETI domain decomposition method

Farhat¹,

Mandel²,

Roux

1994

Computer Methods in Applied Mechanics and Engineering

326

226

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Jan Mandel

Algebraic multigrid by smoothed aggregation for second and fourth order elliptic problems

Balancing domain decomposition

Coupled atmosphere-wildland fire modeling with WRF 3.3 and SFIRE 2011

An algebraic theory for primal and dual substructuring methods by constraints

Optimal convergence properties of the FETI domain decomposition method

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