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  • Scos – Opus Project
    high performance computing Too many investments are duplicated inside each organisation where many of them could be shared between multiple organisations Defining and promoting some common standards and normalize platforms and applications appears as the best way to face the international competitiveness need by saving a huge amount of time and money in the same time Validate once use as much as possible SCOS project has gathered 22 leading Industrial

    Original URL path: http://www.opus-project.fr/trac/wiki/Scos?version=2 (2016-01-11)
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  • Salome – Opus Project
    environments The SALOME 2 project is set in a context of priorities simultaneously calling for the integration of software components and architecture along with the development of new concepts for new objects It defines and creates a software architecture based on reusable components to build a generic CAD CAE link based on open software for digital simulation It ensures the continuity of a number of internal developments and the mutuality of non critical creations for the developers of numerical solving software both pre and post CAE It reduces training time to the specific training time for the encapsulated application It is the only realisation of its kind in the field of open software today The SALOME 2 project aims to improve the distribution of digital simulation software developed in France which are considered references in their application domains It provides them with a generic user friendly and efficient user interface which facilitates cost reduction and reduces the delays in performing studies It is a means of facilitating the linkage of code the reuse of portions of code the inter operability between simulation code and the CAD modelling software Nowadays SALOME is a free software that provides a generic platform for

    Original URL path: http://www.opus-project.fr/trac/wiki/Salome?version=4 (2016-01-11)
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  • Salome – Opus Project
    environments The SALOME 2 project is set in a context of priorities simultaneously calling for the integration of software components and architecture along with the development of new concepts for new objects It defines and creates a software architecture based on reusable components to build a generic CAD CAE link based on open software for digital simulation It ensures the continuity of a number of internal developments and the mutuality of non critical creations for the developers of numerical solving software both pre and post CAE It reduces training time to the specific training time for the encapsulated application It is the only realisation of its kind in the field of open software today The SALOME 2 project aims to improve the distribution of digital simulation software developed in France which are considered references in their application domains It provides them with a generic user friendly and efficient user interface which facilitates cost reduction and reduces the delays in performing studies It is a means of facilitating the linkage of code the reuse of portions of code the inter operability between simulation code and the CAD modelling software Nowadays SALOME is a free software that provides a generic platform for

    Original URL path: http://www.opus-project.fr/trac/wiki/Salome?version=3 (2016-01-11)
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  • Salome (diff) – Opus Project
    performance and quality requirements For example in the case of structures and their requirements needs are becoming greater to minimize risks and optimise costs This requires increasingly refined simulations of the behaviour and resistance of structures to ensure their reliability Digital simulation of a physical problem the establishment of solutions and their integration into the design process are often handled in very specialized environments 6 7 The SALOME 2 project is set in a context of priorities simultaneously calling for the integration of software components and architecture along with the development of new concepts for new objects It defines and creates a software architecture based on reusable components to build a generic CAD CAE link based on open software for digital simulation It ensures the continuity of a number of internal developments and the mutuality of non critical creations for the developers of numerical solving software both pre and post CAE It reduces training time to the specific training time for the encapsulated application It is the only realisation of its kind in the field of open software today 8 The SALOME 2 project aims to improve the distribution of digital simulation software developed in France which are considered references in their application domains It provides them with a generic user friendly and efficient user interface which facilitates cost reduction and reduces the delays in performing studies It is a means of facilitating the linkage of code the reuse of portions of code the inter operability between simulation code and the CAD modelling software 9 10 Nowadays SALOME is a free software that provides a generic platform for Pre and Post Processing for numerical simulation It is based on an open and flexible architecture made of reusable components available as free software It is open source LGPL and you can

    Original URL path: http://www.opus-project.fr/trac/wiki/Salome?action=diff&version=3 (2016-01-11)
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  • Salome (diff) – Opus Project
    Next Change Changes between Version 1 and Version 2 of Salome View differences inline side by side Show lines around each change Ignore Blank lines Case changes White space changes Timestamp 09 30 09 14 44 19 6 years ago Author pmpair Comment Legend Unmodified Added Removed Modified Salome v1 v2 1 http www opus project fr trac Retour 1 http www opus project fr trac wiki References Retour Powered

    Original URL path: http://www.opus-project.fr/trac/wiki/Salome?action=diff&version=2 (2016-01-11)
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  • References – Opus Project
    the international level ESREDA MUCM SAMSI or the French level IMdR have launched ambitious works to capitalise on uncertainty treatments into generic guides that would meet virtually any industrial need It aims at designing a common template to be followed as well as specific guidelines to methodology that might best fit the particular case typically according to the data and experts information availability model complexity and so on The genuine study cases considered in these projects all from different business areas illustrate a startling feature although the applications and physics involved are completely different the implicit mathematical structure seems very similar Moreover the methodology collections to shop in for each step are common and the choice is rather dependent on the criteria the underlying institutional regulation or study purpose than on the application Indeed the conceptual framework that fits conceptually at least virtually any industrial uncertainty study can be resumed by the following figure Schéma traitement incertitudes This scheme ought to be considered as a skeleton for a purely uncertainty part of an industrial study So far all the three essential steps as well as satellites B and C may be shown application free it is rather mutually dependent At a conceptual level it may be one size fits all solution meanwhile it is not assumed to be so when applied Instead the reference guide provides the methodologies to shop from and the guidelines to chose from that handleads and educates an industrial engineer over the uncertainties aspects avoiding him becoming a specialist in this complex field It may therefore be implemented as Software that would perform all the modelling propagation and criteria check and would only ask some relevant questions playing the role of Babel Fish a translator from the industrial world to the mathematical When dependency structure between

    Original URL path: http://www.opus-project.fr/trac/wiki/References?version=2 (2016-01-11)
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  • References (diff) – Opus Project
    References v1 v2 31 31 In support to these industrial genericity efforts some recent academic works have generalised and deepened the mathematical methodologies needed in the modelling and computing in particular advanced statistical computing is getting closer to uncertainty and sensitivity needs Robert Antoniadis Kennedy O Hagan Kleijnen Kurowicka Cooke etc this involves for instance the field of design of experiments meta models statistical learning functional analysis of variance advanced

    Original URL path: http://www.opus-project.fr/trac/wiki/References?action=diff&version=2 (2016-01-11)
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  • References – Opus Project
    several major partnerships at the international level ESREDA MUCM SAMSI or the French level IMdR have launched ambitious works to capitalise on uncertainty treatments into generic guides that would meet virtually any industrial need It aims at designing a common template to be followed as well as specific guidelines to methodology that might best fit the particular case typically according to the data and experts information availability model complexity and so on The genuine study cases considered in these projects all from different business areas illustrate a startling feature although the applications and physics involved are completely different the implicit mathematical structure seems very similar Moreover the methodology collections to shop in for each step are common and the choice is rather dependent on the criteria the underlying institutional regulation or study purpose than on the application Indeed the conceptual framework that fits conceptually at least virtually any industrial uncertainty study can be resumed by the following figure Schéma traitement incertitudes This scheme ought to be considered as a skeleton for a purely uncertainty part of an industrial study So far all the three essential steps as well as satellites B and C may be shown application free it is rather mutually dependent At a conceptual level it may be one size fits all solution meanwhile it is not assumed to be so when applied Instead the reference guide provides the methodologies to shop from and the guidelines to chose from that handleads and educates an industrial engineer over the uncertainties aspects avoiding him becoming a specialist in this complex field It may therefore be implemented as Software that would perform all the modelling propagation and criteria check and would only ask some relevant questions playing the role of Babel Fish a translator from the industrial world to the mathematical

    Original URL path: http://www.opus-project.fr/trac/wiki/References?version=1 (2016-01-11)
    Open archived version from archive