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| {{Short description|Universal pre-/postprocessor for finite element analysis}} | {{Short description|Universal pre-/postprocessor for finite element analysis}} | ||
| {{ |
{{For-multi|the city in Saudi Arabia|Medina|other uses|Medina (disambiguation)}} | ||
| {{Multiple issues| | |||
| {{primary sources|date=April 2011}} | {{primary sources|date=April 2011}} | ||
| {{peacock|date=November 2011}} | |||
| {{advert|date=November 2011}} | |||
| }} | |||
| {{Infobox OS | {{Infobox OS | ||
| Line 15: | Line 11: | ||
| |source_model = ] | |source_model = ] | ||
| |latest_release_version = 9.0.1.2 | |latest_release_version = 9.0.1.2 | ||
| |genre = ] software | |||
| |marketing_target = Simulation tasks in Automotive, Aerospace & Defence, Energy, Manufacturing Industries | |marketing_target = Simulation tasks in Automotive, Aerospace & Defence, Energy, Manufacturing Industries | ||
| |license = ] ] | |license = ] ] | ||
| }} | }} | ||
| '''Model Editor Interactive for Numerical Simulation Analysis''' ('''MEDINA''') is a piece of software utilized in the manufacturing and engineering sector to simulate the properties of objects designed using computer-aided design (CAD) before their fabrication. The development of MEDINA began in the early 1990s at ], building on previous work carried out at "Debis Systemhaus". In 2001, ] International GmbH took over the support and development of MEDINA. As of 2024, Medina is no longer mentioned on the T-Systems website - but appears on the website of . | |||
| '''MEDINA,''' short for ('''Model Editor Interactive for Numerical Simulation Analysis''') is a universal pre-postprocessor for ].<ref>{{cite web |author = T-Systems |url = https://servicenet.t-systems.de/tsi/en/290134/Home/T-Systems-PLM-en/T-Systems-PLM-Applications/Analysis-Simulation/MEDINA-PrePost/Product-Information/Download |title = Official Product Information about MEDINA |publisher = T-Systems International GmbH |accessdate = 2011-02-17 |archive-url = https://web.archive.org/web/20110827013807/https://servicenet.t-systems.de/tsi/en/290134/Home/T-Systems-PLM-en/T-Systems-PLM-Applications/Analysis-Simulation/MEDINA-PrePost/Product-Information/Download |archive-date = 2011-08-27 |url-status = dead }}</ref> | |||
| <ref>{{cite journal| author= M. Westhäußer | title= Wie kann der Berechnungs-Prozess für Gesamtfahrzeuge verbessert werden?| year=2003 | journal= FEM-, CFD-, und MKS Simulation }}</ref> | |||
| The development of MEDINA started in the early 1990s at ] and was proceeded at ]. Since 2001 the support and development of MEDINA takes place by ] International GmbH. The current release is MEDINA Rel. 9.0.1.2<ref>{{cite web|author = T-Systems |url = http://servicenet.t-systems.de/t-systems-plm-de/fem-pre-und-postprozessing-medina-/927008 |title = FEM Pre- und Postprozessing |publisher = T-Systems International GmbH |accessdate = 2017-01-08}}</ref> | |||
| == Architecture and interfaces == | == Architecture and interfaces == | ||
| MEDINA was |
MEDINA was developed as a pre- and post-processing tool for various domains within finite element analysis (FEA). It is compatible with most widely used CAD formats, solver applications and can run on two operating systems: ] and ]. | ||
| == Characteristic == | |||
| === CAD-formats supported === | |||
| ⚫ | MEDINA was developed to handle complex simulation tasks and large finite element (FE) models efficiently.<ref>{{cite journal| author= H. Kitagawa |author2=T.B. Negretti |author3=J.P. da Silva |author4=K.C. Malavazi | title= Product Development Cycle Time Reduction through Geometry Reconstruction from a Finite Element Mesh | year=2010| | ||
| Currently, the following CAD-formats are supported by MEDINA: | |||
| * ] | |||
| * ] | |||
| * ] | |||
| * ] | |||
| * ] | |||
| * ] | |||
| * ] | |||
| Further CAD-formats can be supported using the solution for 3D data conversion of T-Systems called ]. | |||
| === FEA interfaces supported === | |||
| In the current release, particularly the following solvers are supported by MEDINA: | |||
| * ] | |||
| * ] | |||
| * AutoSEA | |||
| * ] | |||
| * ] | |||
| * ] | |||
| * ] | |||
| * ] | |||
| * ] | |||
| * SYSTUS | |||
| * ] | |||
| * VECTIS | |||
| * PERMAS | |||
| === OS and hardware supported === | |||
| In the current release, MEDINA is running under the following operating systems and hardware architectures: | |||
| * ] | |||
| * ] | |||
| === FE-analysis in MEDINA === | |||
| Particularly, MEDINA is being used for the following tasks of FE-analysis: | |||
| * ]; | |||
| * durability analysis (thermal and mechanical loading); | |||
| * ]; | |||
| * simulations about ] and ]. | |||
| MEDINA consists of two modules: | |||
| * a ] (MEDINA.Pre) and | |||
| * a ] (MEDINA.Post). | |||
| In the '''preprocessor''' all steps are taken '''before''' the computation can start, i.e.: | |||
| * Import of geometry data from CAD system; | |||
| * Import of associated meta data from the CAD-system or ]-system; | |||
| * Import of FE-models; | |||
| * Editing and repair of CAD geometry; | |||
| * Meshing; | |||
| * Model structuring; | |||
| * Definition of material parameters; | |||
| * Definition of boundary conditions; | |||
| * Definition of load cases; | |||
| * Generation of the solver specific input deck. | |||
| In the '''postprocessor''' all steps are taken '''after''' the computation of the primary data of the solver is finished, e.g.: | |||
| * Determination of the derived secondary data; | |||
| * Illustration of the results (graphics, animations); | |||
| * Export functionalities; | |||
| * Generation of reports. | |||
| == Characteristics == | |||
| ⚫ | MEDINA was |
||
| url= http://papers.sae.org/2010-36-0320| | url= http://papers.sae.org/2010-36-0320| | ||
| journal=SAE International Technical Papers|series=SAE Technical Paper Series |volume=1 | doi=10.4271/2010-36-0320}}</ref> | journal=SAE International Technical Papers|series=SAE Technical Paper Series |volume=1 | doi=10.4271/2010-36-0320}}</ref> | ||
| Important design elements to achieve high performance are '''parts structures''' and '''connector elements'''. | |||
| * Parts enable a 1:1 mapping of the product structure of the CAD-/PDM-system within the FE model. | |||
| * Connector elements are used for the generic as well as solver and client specific modeling of assembling techniques like welding, bolting, bonding.<ref>{{cite journal| author= S. Zhang | title= Simplified Spot Weld Model for NVH Simulations | year=2005| | |||
| url= http://papers.sae.org/2005-01-0905| | |||
| journal=SAE International Technical Papers| series= SAE Technical Paper Series | volume= 1 | doi=10.4271/2005-01-0905}}</ref> | |||
| Within the process step of the so-called "model assembly" the single FE-components (parts structures and connector elements) are merged to the complex comprehensive FE-model representing complex products like vehicles, aircraft, etc. | |||
| Single process steps or complete process chains can be automated by '''protocol and script techniques'''. Dynamic commands enable to integrate client specific plug-ins within the standard functionality of MEDINA. | |||
| == Target groups/user groups == | |||
| Due to the development roots of MEDINA and the included functionalities for the analysis of huge FE-models MEDINA is a widely used pre-/postprocessor for FE analysis especially in ]. | |||
| Furthermore, MEDINA is used in ], manufacturing industries, engineering service providers and universities. | |||
| == References == | == References == | ||
| <references /> | <references /> | ||
Latest revision as of 19:01, 16 December 2024
Universal pre-/postprocessor for finite element analysis For the city in Saudi Arabia, see Medina. For other uses, see Medina (disambiguation). | This article relies excessively on references to primary sources. Please improve this article by adding secondary or tertiary sources. Find sources: "MEDINA" – news · newspapers · books · scholar · JSTOR (April 2011) (Learn how and when to remove this message) |
| Developer | T-Systems |
|---|---|
| Source model | Closed source |
| Latest release | 9.0.1.2 |
| Marketing target | Simulation tasks in Automotive, Aerospace & Defence, Energy, Manufacturing Industries |
| License | Proprietary commercial software |
| Official website | http://servicenet.t-systems.com/medina |
Model Editor Interactive for Numerical Simulation Analysis (MEDINA) is a piece of software utilized in the manufacturing and engineering sector to simulate the properties of objects designed using computer-aided design (CAD) before their fabrication. The development of MEDINA began in the early 1990s at Daimler-Benz AG, building on previous work carried out at "Debis Systemhaus". In 2001, T-Systems International GmbH took over the support and development of MEDINA. As of 2024, Medina is no longer mentioned on the T-Systems website - but appears on the website of Medina Software.
Architecture and interfaces
MEDINA was developed as a pre- and post-processing tool for various domains within finite element analysis (FEA). It is compatible with most widely used CAD formats, solver applications and can run on two operating systems: Linux and Microsoft Windows.
Characteristic
MEDINA was developed to handle complex simulation tasks and large finite element (FE) models efficiently.
References
- H. Kitagawa; T.B. Negretti; J.P. da Silva; K.C. Malavazi (2010). "Product Development Cycle Time Reduction through Geometry Reconstruction from a Finite Element Mesh". SAE International Technical Papers. SAE Technical Paper Series. 1. doi:10.4271/2010-36-0320.
External links
- https://web.archive.org/web/20110827013759/https://servicenet.t-systems.com/medina - official MEDINA web site (in English)