January 2011


ERMES (Electric Regularized Maxwell Equations with Singularities) is a finite element (FEM) code in frequency domain. It is the C++ implementation of a FEM formulation based on the regularized Maxwell equations. It is able to calculate electromagnetic fields for several applications: microwave engineering, antenna design, eddy currents, electromagnetic metal forming. ERMES results have been collated

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Elmer is an open-source computational tool for multi-physics problems. It has been developed in collaboration with Finnish universities, research laboratories and industry. Elmer includes physical models of fluid dynamics, structural mechanics, electromagnetics and heat transfer. These are described by partial differential equations which Elmer solves by the Finite Element Method (FEM). To get more information

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The Getfem++ project focuses on the development of a generic and efficient C++ library for finite element methods elementary computations. The goal is to provide a library allowing the computation of any elementary matrix (even for mixed finite element methods) on the largest class of methods and elements, and for arbitrary dimension (i.e. not only

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Free TOCHNOG professional offers a wide variety of geotechnical, civil and mechanical options; modern material laws including the most recent rate independent and viscous hypoplasticity models; stress, temperature and groundwater pressure analysis; lagrangian and eulerian mesh in space; quasi-static and dynamic calculations. Linux and Microsoft Windows. Parallel computations. Dedicated pre- and postprocessing interfaces. A full

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Impact is a Finite Element Code which is based on an Explicit Time stepping algorithm. These kind of codes are used to simulate dynamic phenomenons such as car crashes and similar, usually involving large deformations. For further information about Impact, please visit impact.sourceforge.net

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