Introduction

SIFEL is an open source finite element (FE) computer code which has been developing since 2001 at the Department of Mechanics of the Faculty of Civil Engineering of the Czech Technical University in Prague. The SIFEL is an union of several parts which can be used as independent computer codes or they can be linked together in order to obtain higher functionality. All parts are released under GNU General Public Licence (GPL)

  • GEFEL - the part containing mathematical, FE and auxiliary tools for all other parts of the code. <more...>
  • MEFEL - the part which deals with mechanical problems such as linear and non-linear statics, eigenvibration analysis, forced dynamics, time dependent problems of rheology. <more...>
  • TRFEL - the part which deals with transport processes such as heat transfer, moisture transfer, coupled heat and moisture transfer, moisture and salt transfer, etc. <more...>
  • METR - the part combining MEFEL and TRFEL which is used in coupled transport and mechanical problems. <more...>
  • PARGEF - the part containing mathematical, graphical and auxiliary tools for parallel computing, it contains the Schur complement method, the FETI (Finite Element Tearing and Interconnecting) method and the FETI-DP (Dual-Primal Finite Element Tearing and Interconnecting) method,
  • PARMEF - the part which deals with mechanical problems solved on parallel computers,
  • PARTRF - the part which deals with transport processes solved on parallel computers,
  • PARMETR - the part combining PARMEF and PARTRF which is used in coupled transport and mechanical problems solved on parallel computers
  • HPMEFEL - the part which deals with mechanical problems solved by homogenization of material properties on parallel computers connected into a processor farm
  • HPTRFEL - the part which deals with transport problems solved by homogenization of material properties on parallel computers connected into a processor farm
  • HPMETR - the part combining HPMEFEL and HPTRFEL which is used in coupled transport and mechanical problems using homogenizaton of material properties solved on processor farms

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