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Wikipedia

Agros2D

January 01, 1970

Agros2D is an open-source code for numerical solutions of 2D coupled problems in technical disciplines. Its principal part is a user interface serving for complete preprocessing and postprocessing of the tasks (it contains sophisticated tools for building geometrical models and input of data, generators of meshes, tables of weak forms for the partial differential equations and tools for evaluating results and drawing graphs and maps). The processor is based on the library Hermes containing the most advanced numerical algorithms for monolithic and fully adaptive solution of systems of generally nonlinear and nonstationary partial differential equations (PDEs) based on hp-FEM (adaptive finite element method of higher order of accuracy). Both parts of the code are written in C++.[1]

Agros2D
Heat transfer simulated by the Agros2D
Developer(s)University of West Bohemia
Stable release
3.2 / March 3, 2014; 10 years ago (2014-03-03)
Repository
  • github.com/hpfem/agros2d
Operating systemLinux, Windows
Available inC++, Python
TypeScientific simulation software
LicenseGNU General Public License
Websitewww.agros2d.org

Features edit

  • Coupled Fields - With coupled field feature you can blend two or more physical fields in one problem. Weak or hard coupling options are available.
  • Nonlinear Problems - Simulation and analysis of nonlinear problems are available. Agros2D now implements both Newton’s and Pickard’s methods.
  • Automatic space and time adaptivity - One of the main strengths of the Hermes library is an automatic space adaptivity algorithm. With Agros2D is also possible use adaptive time stepping for transient phenomena analysis. It can significantly improve solution speed without decreasing accuracy.
  • Curvilinear Elements - Curvilinear elements is an effective feature for meshing curved geometries and leads to faster and more accurate calculations.
  • Quadrilateral Meshing - Quadrilateral meshing can be very useful for some types of problem geometry such as compressible and incompressible flow.
  • Particle Tracing—Powerful environment for computing the trajectory of charged particles in electromagnetic field, including the drag force or their reflection on the boundaries.

Highlights of capabilities edit

  • Higher-order finite element method (hp-FEM) with h, p and hp adaptivity based on reference solution and local projections
  • Time-adaptive capabilities for transient problems
  • Multimesh assembling over component-specific meshes without projections or interpolations in multi-physics problems
  • Parallelization on single machine using OpenMP
  • Large range of linear algebra libraries (MUMPS, UMFPACK, PARALUTION, Trilinos)
  • Support for scripting in Python (advanced IDE PythonLab)

Physical Fields edit

Couplings edit

  • Current field as a source for heat transfer through Joule losses
  • Magnetic field as a source for heat transfer through Joule losses
  • Heat distribution as a source for thermoelastic field

History edit

The software started from work at the hp-FEM Group at University of West Bohemia in 2009. The first public version was released at the beginning of year 2010. Agros2D has been used in many publications.[2][3][4][5][6][7][8]

See also edit

References edit

  1. ^ Karban, P., Mach, F., Kůs, P., Pánek, D., Doležel, I.: Numerical solution of coupled problems using code Agros2D, Computing, 2013, Volume 95, Issue 1 Supplement, pp 381-408
  2. ^ Dolezel, I., Karban, P., Mach, F., & Ulrych, B. (2011, July). Advanced adaptive algorithms in finite element method of higher order of accuracy. In Nonlinear Dynamics and Synchronization (INDS) & 16th Int'l Symposium on Theoretical Electrical Engineering (ISTET), 2011 Joint 3rd Int'l Workshop on (pp. 1-4). IEEE.
  3. ^ Polcar, P. (2012, May). Magnetorheological brake design and experimental verification. In ELEKTRO, 2012 (pp. 448-451). IEEE.
  4. ^ Lev, J., Mayer, P., Prosek, V., & Wohlmuthova, M. (2012). The Mathematical Model of Experimental Sensor for Detecting of Plant Material Distribution on the Conveyor. Main Thematic Areas, 97.
  5. ^ Kotlan, V., Voracek, L., & Ulrych, B. (2013). Experimental calibration of numerical model of thermoelastic actuator. Computing, 95(1), 459-472.
  6. ^ Vlach, F., & Jelínek, P. (2014). Determination of linear thermal transmittance for curved detail. Advanced Materials Research, 899, 112-115.
  7. ^ Kyncl, J., Doubek, J., & Musálek, L. (2014). Modeling of Dielectric Heating within Lyophilization Process. Mathematical Problems in Engineering, 2014.
  8. ^ De, P. R., Mukhopadhyay, S., & Layek, G. C. (2012). Analysis of fluid flow and heat transfer over a symmetric porous wedge. Acta Technica CSAV, 57(3), 227-237.

External links edit

January 01, 1970
agros2d, open, source, code, numerical, solutions, coupled, problems, technical, disciplines, principal, part, user, interface, serving, complete, preprocessing, postprocessing, tasks, contains, sophisticated, tools, building, geometrical, models, input, data,. Agros2D is an open source code for numerical solutions of 2D coupled problems in technical disciplines Its principal part is a user interface serving for complete preprocessing and postprocessing of the tasks it contains sophisticated tools for building geometrical models and input of data generators of meshes tables of weak forms for the partial differential equations and tools for evaluating results and drawing graphs and maps The processor is based on the library Hermes containing the most advanced numerical algorithms for monolithic and fully adaptive solution of systems of generally nonlinear and nonstationary partial differential equations PDEs based on hp FEM adaptive finite element method of higher order of accuracy Both parts of the code are written in C 1 Agros2DHeat transfer simulated by the Agros2DDeveloper s University of West BohemiaStable release3 2 March 3 2014 10 years ago 2014 03 03 Repositorygithub wbr com wbr hpfem wbr agros2dOperating systemLinux WindowsAvailable inC PythonTypeScientific simulation softwareLicenseGNU General Public LicenseWebsitewww wbr agros2d wbr org Contents 1 Features 2 Highlights of capabilities 3 Physical Fields 3 1 Couplings 4 History 5 See also 6 References 7 External linksFeatures editCoupled Fields With coupled field feature you can blend two or more physical fields in one problem Weak or hard coupling options are available Nonlinear Problems Simulation and analysis of nonlinear problems are available Agros2D now implements both Newton s and Pickard s methods Automatic space and time adaptivity One of the main strengths of the Hermes library is an automatic space adaptivity algorithm With Agros2D is also possible use adaptive time stepping for transient phenomena analysis It can significantly improve solution speed without decreasing accuracy Curvilinear Elements Curvilinear elements is an effective feature for meshing curved geometries and leads to faster and more accurate calculations Quadrilateral Meshing Quadrilateral meshing can be very useful for some types of problem geometry such as compressible and incompressible flow Particle Tracing Powerful environment for computing the trajectory of charged particles in electromagnetic field including the drag force or their reflection on the boundaries Highlights of capabilities editHigher order finite element method hp FEM with h p and hp adaptivity based on reference solution and local projections Time adaptive capabilities for transient problems Multimesh assembling over component specific meshes without projections or interpolations in multi physics problems Parallelization on single machine using OpenMP Large range of linear algebra libraries MUMPS UMFPACK PARALUTION Trilinos Support for scripting in Python advanced IDE PythonLab Physical Fields editElectrostatics Electric currents steady state and harmonic Magnetic field steady state harmonic and transient Heat transfer steady state and transient Structural mechanics and thermoelasticity Acoustics harmonic and transient Incompressible flow steady state and transient RF field TE and TM waves Richards equation steady state and transient Couplings edit Current field as a source for heat transfer through Joule losses Magnetic field as a source for heat transfer through Joule losses Heat distribution as a source for thermoelastic fieldHistory editThe software started from work at the hp FEM Group at University of West Bohemia in 2009 The first public version was released at the beginning of year 2010 Agros2D has been used in many publications 2 3 4 5 6 7 8 See also editHermes List of numerical analysis software List of finite element software packages Open source hp FEM codesReferences edit Karban P Mach F Kus P Panek D Dolezel I Numerical solution of coupled problems using code Agros2D Computing 2013 Volume 95 Issue 1 Supplement pp 381 408 Dolezel I Karban P Mach F amp Ulrych B 2011 July Advanced adaptive algorithms in finite element method of higher order of accuracy In Nonlinear Dynamics and Synchronization INDS amp 16th Int l Symposium on Theoretical Electrical Engineering ISTET 2011 Joint 3rd Int l Workshop on pp 1 4 IEEE Polcar P 2012 May Magnetorheological brake design and experimental verification In ELEKTRO 2012 pp 448 451 IEEE Lev J Mayer P Prosek V amp Wohlmuthova M 2012 The Mathematical Model of Experimental Sensor for Detecting of Plant Material Distribution on the Conveyor Main Thematic Areas 97 Kotlan V Voracek L amp Ulrych B 2013 Experimental calibration of numerical model of thermoelastic actuator Computing 95 1 459 472 Vlach F amp Jelinek P 2014 Determination of linear thermal transmittance for curved detail Advanced Materials Research 899 112 115 Kyncl J Doubek J amp Musalek L 2014 Modeling of Dielectric Heating within Lyophilization Process Mathematical Problems in Engineering 2014 De P R Mukhopadhyay S amp Layek G C 2012 Analysis of fluid flow and heat transfer over a symmetric porous wedge Acta Technica CSAV 57 3 227 237 External links editOfficial website Group s website Archived 2017 05 04 at the Wayback Machine Retrieved from https en wikipedia org w index php title Agros2D amp oldid 1117515607, wikipedia, wiki, book, books, library,

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