MFront for the Code-Aster’users and beyond · MFrontfor the Code-Aster’users and beyond...
Transcript of MFront for the Code-Aster’users and beyond · MFrontfor the Code-Aster’users and beyond...
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MFront for the Code-Aster’usersand beyond
Code-Aster users meeting — Thomas Helfer1,
Jean-Michel Proix 2, Olivier Fandeur3,4,
Francois Curtit5, Charles Toulemonde5,
Francois Hamon2, Vincent Faucher 3,4,
Michel Casella1
26 March 2015
1 CEA, Departement d’Etudes des Combustibles2 EDF R&D, Departement Analyses Mecaniques et Acoustique3 CEA, Departement de Modelisation des Systemes et des Structures4 IMSIA, UMR 8193, CNRS-EDF-CEA-ENSTA5 EDF R&D, Departement des Materiaux et Mecanique des Composants
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Table of contents
Forewords
A brief tour of MFront
Material knowledge management
Conclusions
Appendix
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Pleiades
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MFront
MFront is an open-source code generator based on C++ developedwithin the PLEIADES platform for :
material propertiesmechanical behavioursmodels
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MFront
MFront is an open-source code generator based on C++ developedwithin the PLEIADES platform for :
material properties
mechanical behaviours of particular interest for Code-Astermodels
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MFront
MFront is an open-source code generator based on C++ developedwithin the PLEIADES platform for :
material properties
mechanical behaviours of particular interest for Code-Astermodels
MFront provides several domain specific languages :ease of use, expressivness, etc..
◮ focus on physical content◮ low programming skills requirements
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MFront
MFront is an open-source code generator based on C++ developedwithin the PLEIADES platform for :
material properties
mechanical behaviours of particular interest for Code-Astermodels
MFront provides several domain specific languages :ease of use, expressivness, etc..
◮ focus on physical content◮ low programming skills requirements
MFront tries to comply with Eric Lorentz’s rule of three :reliability (gives the correct result)robustness (gives a result)numerical efficiency (is as fast as possible).
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![Page 9: MFront for the Code-Aster’users and beyond · MFrontfor the Code-Aster’users and beyond Code-Aster users meeting — Thomas Helfer1, Jean-Michel Proix 2, Olivier Fandeur3,4, Franc¸ois](https://reader031.fdocuments.net/reader031/viewer/2022021916/5e089e023bf24c50f3091037/html5/thumbnails/9.jpg)
MFront
MFront is an open-source code generator based on C++ developedwithin the PLEIADES platform for :
material properties
mechanical behaviours of particular interest for Code-Astermodels
MFront provides several domain specific languages :ease of use, expressivness, etc..
◮ focus on physical content◮ low programming skills requirements
MFront tries to comply with Eric Lorentz’s rule of three :reliability (gives the correct result)robustness (gives a result)numerical efficiency (is as fast as possible).
Interoperability (rule of four ? See ”Intefaces” below).
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MFront
MFront is an open-source code generator based on C++ developedwithin the PLEIADES platform for :
material properties
mechanical behaviours of particular interest for Code-Astermodels
MFront provides several domain specific languages :ease of use, expressivness, etc..
◮ focus on physical content◮ low programming skills requirements
MFront tries to comply with Eric Lorentz’s rule of three :reliability (gives the correct result)robustness (gives a result)numerical efficiency (is as fast as possible).
Interoperability (rule of four ? See ”Intefaces” below).
Strong emphasis on Quality Assurance (rule of five ? See ”Materialknowledge management” below).
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MFront
MFront is an open-source code generator based on C++ developedwithin the PLEIADES platform for :
material properties
mechanical behaviours of particular interest for Code-Astermodels
MFront provides several domain specific languages :ease of use, expressivness, etc..
◮ focus on physical content◮ low programming skills requirements
MFront tries to comply with Eric Lorentz’s rule of three :reliability (gives the correct result)robustness (gives a result)numerical efficiency (is as fast as possible).
Interoperability (rule of four ? See ”Intefaces” below).
Strong emphasis on Quality Assurance (rule of five ? See ”Materialknowledge management” below).
PLEIADES goals : building high quality fuels performance codesPAGE 3/11
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A first example : material property
@DSL Mate r i a lLaw ; // t r e a t i n g a ma t e r i a l p r op e r t y@Mate r i a l UO2 ; // m a t e r i a l name@Law YoungModulus Martin1989 ; // name of the m a t e r i a l p r op e r t y@Output E ; // output o f the ma t e r i a l p r op e r t y@Input T, f ; // i n pu t s o f the ma t e r i a l p r op e r t y@Funct ion // imp l ementa t i on body{
E = 2.2693 e11∗(1.−2.5∗ f )∗(1−6.786 e−05∗T−4.23e−08∗T∗T) ;}
E (T , f ) = 2.2693 1011 (1− 2.5 f ) (1 − 6.786 10−5 T − 4.23 10−8 T 2)
usable in Code-Aster through the python interface.
also in C, C++, fortran, excel, Cast3M, etc..
usable in MFront’s mechanical behaviours !
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A first example : material property
@DSL Mate r i a lLaw ; // t r e a t i n g a ma t e r i a l p r op e r t y@Mate r i a l UO2 ; // m a t e r i a l name@Law YoungModulus Martin1989 ; // name of the m a t e r i a l p r op e r t y@Author T . H e l f e r ; // author name@Date 04/04/2014; // imp l ementa t i on date@De sc r i p t i on // d e t a i l l e d d e s c r i p t i o n{
The e l a s t i c c on s t a n t s o f p o l y c r y s t a l l i n e UO2 and(U, Pu) mixed o x i d e s : a r e v i ew and recommendat ionsMartin , DGHigh Temperature s . High P re s su r e s , 1989
}
@Output E ; // output o f the ma t e r i a l p r op e r t yE . se tGlossaryName ( ”YoungModulus ” ) ;@Input T, f ; // i n pu t s o f the ma t e r i a l p r op e r t yT. se tGlossaryName ( ”Temperature ” ) ;f . se tGlossaryName ( ” Po r o s i t y ” ) ;
@Phys i ca lBounds T i n [ 0 : ∗ [ ; // Temperature i s p o s i t i v e@Phys i ca lBounds f i n [ 0 : 1 . ] ; // Po r o s i t y i s p o s i t i v e and l owe r than one@Bounds T i n [ 2 7 3 . 1 5 : 2 6 1 0 . 1 5 ] ; // V a l i d i t y range
@Funct ion // imp l ementa t i on body{
E = 2.2693 e11∗(1.−2.5∗ f )∗(1−6.786 e−05∗T−4.23e−08∗T∗T) ;}
E (T , f ) = 2.2693 1011 (1− 2.5 f ) (1 − 6.786 10−5 T − 4.23 10−8 T 2)PAGE 4/11
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Mechanical behaviours
@DSL I s o t r o p i c P l a s t i cM i s e s F l o w ;@Behaviour p l a s t i c f l o w ;@Author H e l f e r Thomas ;@Date 23/11/06;
@Mate r i a lP rope r t y s t r e s s H;
@FlowRule{f = seq−H∗p ;d f d s e q = 1;d f dp = −H;
}
A simple J2 (isotropic) plastic behaviour :f (σeq , p) = σeq − H p ≤ 0example of specific behaviour implementationautomatic computation of the consistent tangent operator
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Mechanical behaviours
@DSL I s o t r o p i c P l a s t i cM i s e s F l o w ;@Behaviour p l a s t i c f l o w ;@Author H e l f e r Thomas ;@Date 23/11/06;
@Mate r i a lP rope r t y s t r e s s H;
@FlowRule{f = seq−H∗p ;d f d s e q = 1;d f dp = −H;
}
A simple J2 (isotropic) plastic behaviour :f (σeq , p) = σeq − H p ≤ 0example of specific behaviour implementationautomatic computation of the consistent tangent operator
various domain specific languages are available to cope with :general small strain behaviours, general finite strain behaviours, cohesivezone modelsexplicit or implicit integration schemes
◮ various algorithms available
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Code generation and interfaces
Finite elements solvers :Code-Aster, Cast3M, ZeBuLoN.
Fast Fourier transform solvers :TMFFT, AMITEX FFT
Fuel performance codes :Cyrano3
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Code generation and interfaces
Finite elements solvers :Code-Aster, Cast3M, ZeBuLoN, EuroPlexus, Abaqus, Ansys.
Fast Fourier transform solvers :TMFFT, AMITEX FFT, CraFT
Fuel performance codes :Cyrano3, Galileo
working
planned
signs of interest
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Material knowledgemanagement
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Studies quality assurance
One of the main benefits of MFront is to make the link between :Solvers :
◮ Finite elements solvers (Code-Aster, Cast3M, etc..)◮ Fuel performances codes (PLEIADES), etc...)
Material knowledge management projects
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Studies quality assurance
One of the main benefits of MFront is to make the link between :Solvers :
◮ Finite elements solvers (Code-Aster, Cast3M, etc..)◮ Fuel performances codes (PLEIADES), etc...)
Material knowledge management projects
With those projects, users are/will be granted access to :
Checked implementations (expert judgement, unit tests)Technical notes, experimental data, etc...Material knowledge versionning
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Studies quality assurance
One of the main benefits of MFront is to make the link between :Solvers :
◮ Finite elements solvers (Code-Aster, Cast3M, etc..)◮ Fuel performances codes (PLEIADES), etc...)
Material knowledge management projects
With those projects, users are/will be granted access to :
Checked implementations (expert judgement, unit tests)Technical notes, experimental data, etc...Material knowledge versionning
Those projects allow much deeperinteractions/discussion/feed-backs between simulation andexperimental people.
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Studies quality assurance
One of the main benefits of MFront is to make the link between :Solvers :
◮ Finite elements solvers (Code-Aster, Cast3M, etc..)◮ Fuel performances codes (PLEIADES), etc...)
Material knowledge management projects
With those projects, users are/will be granted access to :
Checked implementations (expert judgement, unit tests)Technical notes, experimental data, etc...Material knowledge versionning
Those projects allow much deeperinteractions/discussion/feed-backs between simulation andexperimental people.
Stronger quality assurance for the end user studies
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Sirius and Cadeex : some unformalised perspectives
Two material knowledge management tools : Sirius database inPLEIADES, Cadeex at EDF.
Those projects have followed complementary paths.◮ many experience to share◮ would benefit from a standard file exchange : MADNEX?
End-user would greatly benefit from a Salome interface
Solver inputs files would greatly benefit from allowing access to theunderlying material data (Salome again)
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Sirius and Cadeex : some unformalised perspectives
Two material knowledge management tools : Sirius database inPLEIADES, Cadeex at EDF.
Those projects have followed complementary paths.◮ many experience to share◮ would benefit from a standard file exchange : MADNEX?
End-user would greatly benefit from a Salome interface
Solver inputs files would greatly benefit from allowing access to theunderlying material data (Salome again)
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Conclusions
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Acknowledgements
J. M. Proix, J. Hure, F. Hamon, I. Ramiere, , E. Castelier O. Fandeur,V. Blanc, J. Julien, B. Michel, B. Bary, F. Milliard, A. Courcelle, andall the others for various contributions.
all the persons who contributed to the open-source release of TFEL : J.P. Defain, D. Banner, T. De Soza, V. Marelle, E. Lorentz, C.Toulemonde, F. Curtit, R. Masson, and all the others.
the authors are grateful to J. Besson and S. Quilici for their valuablehelp in building the ZeBuLoN interface.
This research was conducted in the framework of the PLEIADES project,which was supported financially by the CEA (Commissariat a l’EnergieAtomique et aux Energies Alternatives), EDF (Electricite de France) andAREVA and in the framework of the Simu-Meca2015 project hold within
EDF R&D.
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Thanks your for your attention. Questions ?
New users/contributors are welcomed !http://tfel.sourceforge.net
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Appendix
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Licences
To meet CEA and EDF needs, TFEL 2.0 is released under amulti-licensing scheme :
open-source licences :◮ GNU Public License : This licence is used by the Code-Aster finite
element solver.◮ CECILL-A : License developped by CEA, EDF and INRIA, compatible
with the GNU Public License and designed for conformity with theFrench law.
CEA and EDF are free to distribute TFEL under custom licences :Mandatory for the PLEIADES plateform.
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