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Project

MMM@HPC

Title Multiscale Materials Modelling on High Performance Computer Architectures
Grant Agreement Number 261594
Funding Programmes FP7
Dates 30/09/2010 - 30/09/2013
Project URL http://www.multiscale-modelling.eu
Scientific Domain e-Infrastructures
Action Line ICT-based e-Infrastructures
Type Of Project CP-CSA-INFRA-PP
Abstract With the accelerating materials development cycles, the development of simulation approaches for predictive, de-novo characterization and optimization of materials and device properties emerges as a grand challenge to European R&D. A unified multi-disciplinary approach towards the deployment of models, tools, algorithms and simulation and visualization techniques is required to transform isolated solutions for specific problems into comprehensive, industry-ready platforms, which are capable of predicting the properties of complex materials on the basis of their constitutive elements. While many techniques exist to address the specific questions, a lack of integration of the existing methods into readily available multi-scale modelling platforms has to date limited the impact of materials-modelling techniques in materials design. In this project we will develop an integrated e-infrastructure for multi-scale materials modelling (MMM@HPC), where expert groups unite with computational resource providers to deliver an integrated infrastructure for multi-scale materials modelling. MMM@HPC will be an open platform to integrate of existing software modules into customizable, high performance protocols and workflows. We will provide the European research community with a leading edge software infrastructure to exploit the highest quality software and computational resources; enabling Europe to address the emerging grand challenges in materials science and engineering. MMM@HPC will strengthen Europe's international role as software provider and nucleate a unified community of computational scientists to address emerging computing needs of the research community with a very efficient, evolving research tool. The project will demonstrate a direct impact towards solving visible European R&D challenges in the areas of energy storage (Li ion batteries), energy conversion (organic light emitting diodes), carbon based devices for electronics and polymer based electronics.
Partners
(Organisation name and Country)
CINECA CONSORZIO INTERUNIVERSITARIO, Italy
UNIVERSITY OF PATRAS, Greece
UNIVERSITE DE MONS, Belgium
SONY DEUTSCHLAND GMBH, Germany
NOKIA OYJ, Finland
Korea Institute of Science and Technology, Korea (South)