Differences

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--- start [2025/05/07 11:07] – bp
+++ start [2025/09/27 00:11] (current) – [Documentation & Resources] bp
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 {{ :wiki:images:mupif-logo.png?100|}}
 {{keywords> Open Simulation Platform, Digital twin, Interoperability, Modelling, Simulations, Workflows}}
-====== MuPIF ======
+====== MuPIF.org - Empowering Complex Multiphysics Simulations with Open-Source, Modular Integration and Digital Twin Technology. ======
-MuPIF is an open-source, modular, and object-oriented simulation platform designed to create complex, distributed, multiphysics simulation workflows and execute them on distributed resources. It integrates existing simulation tools to handle various scales and processing chains.
+MuPIF is an open-source, modular, and object-oriented simulation platform designed to create complex, distributed, multiphysics simulation workflows with integrated Digital Twin technology.
 **Key features of MuPIF include:**
   * Distributed Design: Allows execution of simulation scenarios involving remote applications and data.
-  * Data Management System (DMS): Builds digital twin representations of physical systems, enhancing predictive simulations.
+  * Data Management System (DMS): Builds digital twin representations of physical systems, enhancing predictive simulations. Provides full traceability.
   * Interoperability: Standardizes application and data component interfaces, enabling seamless integration of different simulation models and data types.
   * Graphical Workflow Editor: Facilitates low-code workflow development and makes implementation more accessible.
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   * Performance: HPC integration to address high computational needs
   * Open Source: Available under LGPL Open source license
+{{ :wiki:videos:mupif_introduction.mp4| MuPIF Introduction}}
 MuPIF utilizes an object-oriented approach, with abstract classes defining standardized interfaces introduced to represent simulation models and data types.
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 MuPIF achieves interoperability with standardization of application and data component interfaces and it is not reliant on standardized data structures or protocols. Any existing data representation or simulation model can be plugged in and used transparently, provided the corresponding data interface is implemented.
-{{ :wiki:images:mupif-distributed-v2-cropped.png?nolink&400|}}
 Even though the platform can be used locally on a single computer orchestrating installed applications, the real strength of the MuPIF platform is its distributed design, allowing to execute simulation scenarios involving remote applications and data. MuPIF provides a transparent distributed object system, which takes care of the network communication between the objects when they are distributed over different machines on the network.
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 ====== Documentation & Resources ======
+  * [[tutorials|MuPIF platform video tutorials]]
   * The Musicode project MuPIF training video recording is available on YouTube: [[https://youtu.be/oaN78pB8vxw | Musicode MuPIF training]].
   * The mupif/jupyter-demos repository on GitHub contains