MuPIF.org: Open-source, modular, distributed simulation platform

User Tools

Site Tools

Trace:
start

Differences

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

Link to this comparison view

Both sides previous revisionPrevious revision
Next revision		Previous revision
start [2024/12/12 20:12] – [Authors & Credits] bpstart [2025/01/24 21:20] (current) bp
Line 3: Line 3:
 ====== MuPIF ====== ====== MuPIF ======
  
-MuPIF platform is an open-source, modular, and object-oriented simulation platform designed to create complex, distributed, multiphysics simulation workflows. 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 and execute them on distributed resources. It integrates existing simulation tools to handle various scales and processing chains.
  
 **Key features of MuPIF include:** **Key features of MuPIF include:**
Line 12: Line 12:
   * Security: Supports SSL or VPN-based secure communication and data exchange.   * Security: Supports SSL or VPN-based secure communication and data exchange.
   * Portability: Written in Python supporting various operating systems, making it a versatile tool for various applications.   * Portability: Written in Python supporting various operating systems, making it a versatile tool for various applications.
 +  * Performance: HPC integration to address high computational needs 
   * Open Source: Available under LGPL Open source license    * Open Source: Available under LGPL Open source license 
  
Line 92: Line 93:
 ===== Projects using MuPIF===== ===== Projects using MuPIF=====
   * **MuPIF spotted by EU Innovation Radar as innovation exploring value creation opportunities** [[https://www.innoradar.eu/innovation/35416]]   * **MuPIF spotted by EU Innovation Radar as innovation exploring value creation opportunities** [[https://www.innoradar.eu/innovation/35416]]
-  * MuPIF used as modeling platform in H2020 [[http://composelector.net|Composelector]] and [[http://musicode.eu|Musicode]] projects +  * MuPIF used as modeling platform in EU H2020 [[http://composelector.net|Composelector]] and [[http://musicode.eu|Musicode]] projects 
-  * Platform is used to simulate the effect of fire on structural response, project GACR 16-18448S+  * MuPIF has been used to simulate CIGS selenization and Light conversion in LEDs in EU FP7 [[http://mmp-project.eu|MMP]] project 
 +  * SUMO: Sustainable design empowered by materials modelling, semantic interoperability and multi-criteria optimization, Czech Science Foundation,  project no. 22-35755K, 2022-2024. 
 +  * DeeMa project (Deep-Learning and Optimisation Enabled Material Microstructure Design), funded by Technology Agency of the Czech Republic, grant agreement no. TH75020002. 
 +  * Platform has facilitated simulations of the effect of fire on structural response, project GACR 16-18448S
   * Platform has been used to model moisture condensation in tunnels, project [[http://cesti.cz|CESTI]]   * Platform has been used to model moisture condensation in tunnels, project [[http://cesti.cz|CESTI]]
   * MuPIF has been used to simulate CIGS selenization and Light conversion in LEDs in EU FP7 [[http://mmp-project.eu|MMP]] project.   * MuPIF has been used to simulate CIGS selenization and Light conversion in LEDs in EU FP7 [[http://mmp-project.eu|MMP]] project.
start.1734030749.txt.gz · Last modified: 2024/12/12 20:12 by bp