Differences

This shows you the differences between two versions of the page.

--- start [2025/05/07 11:05] – [Related Publications] bp
+++ start [2025/05/15 15:16] (current) – bp
@@ Line 1: / Line 1: @@
 {{ :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.
@@ Line 121: / Line 122: @@
 ===== Acknowledgements=====
   * The original development of MuPIF has been funded by Grant Agency of the Czech Republic - Project No. P105/10/1402.
-  * The development has been supported by several EU project:
+  * The development has been supported by several EU/Natinal project:
      * MMP - Multiscale Modelling Platform: Smart design of nano-enabled products in green technologies (FP7 project number 604279),
      * [[http://composelector.net|COMPOSELECTOR: Multi-scale Composite Material Selection Platform with a Seamless Integration of Materials Models and Multidisciplinary Design Framework]], Project no 721105, 2017-2020.
+     * [[http://musicode.eu|H2020 MuSICODE project: An experimentally-validated multi-scale materials, process and device modeling & design platform enabling non-expert access to open innovation in the organic and large area electronics industry]], Grant agreement no. 953187, 2021-2024.
-At present, the MuPIF development is supported by following projects
+    * DeeMa project (Deep-Learning and Optimisation Enabled Material Microstructure Design), funded by Technology Agency of the Czech Republic, grant agreement no. TH75020002.
-  * [[http://musicode.eu|H2020 MuSICODE project: An experimentally-validated multi-scale materials, process and device modeling & design platform enabling non-expert access to open innovation in the organic and large area electronics industry]], Grant agreement no. 953187, 2021-2024.
+    * INODIN project (Innovative methods for materials diagnostics and monitoring of engineering infrastructure to improve its durability and service life), funded by MŠMT, grant agreement CZ.02.01.01/00/23_020/0008487.
-  * DeeMa project (Deep-Learning and Optimisation Enabled Material Microstructure Design), funded by Technology Agency of the Czech Republic, grant agreement no. TH75020002.