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Exa-scalable interactive visual analysis for life & materials sciences – ExaViz
In order to respond to the challenges encountered in the life and materials sciences, we study matter at the nano scale, complementing experimental results by theoretical studies involving high performance molecular simulations. The increasing capacities of these tools and the infrastructures they d
Advenced Numeric for ELMs : Models and Optimized Strategies – ANEMOS
The main goal of the project is to make a significant progress in understanding of largely uknown at present physics of active control methods of plasma edge MHD instabilities Edge Localized Modes (ELMs) wich represent particular danger with respect to heat and particle loads for Plasma Facing Compo
Domain decomposition method and well conditioned solvers in electromagnetism: a response to current industrial issues – ARTHEMIS
The objective of our proposal is to design and develop a multi-domain/multi-method computation method that is a suitable response to the great simulation challenges posed by the complexity of industrial electromagnetic applications. The areas of application are complex on-board antennas, electromagn
Peta scale mULti-gridS ocean-ATmosphere coupled simulatIONs – PULSATION
Understanding the climate is one of the major scientific challenges of this century . Despite the progress achieved in the understanding of the physics of climate, in the power of super computers , the major source of most through climate models is the lack of adequate representation of some small-s
Uncertainty quantification for flows and optimisation – UFO
The applications we have in mind in this project deal with transport (aeronautics) and energy. The const constraints for the civilian and military programs need to master the associated risks, from an accurate evaluation of uncertainties at any stage of the project. One can expect a better control o
Chronological modelling and software development for chronological data processing in archaeometry, archaeology and Earth sciences – CHRONOMODEL
The aim of this project is to develop specific software dedicated to chronological modelling and based on the Bayesian statistical approach. The point is to propose a tool for building chronological scenarios when a great number of data related to time are available and correlated according to more
Polynomial Expansions of Protein Structures and Interactions – PEPSI
Developing efficient ways to represent and manipulate the three-dimensional (3D) structures of protein molecules and to calculate reliably how large proteins interact are major challenges in computational biology. Developing new algorithms which can help the experimental determination of protein str
Ocean Modeling Community – COMODO
The ocean, coupled with other components (atmosphere, continent, and ice) is a building block of the earth system. Recent events have raised questions on social and economic implications of anthropic alterations of the earth system, i.e. both its long-term evolution and extreme events. A better unde
Numerical modeling of multi-scale fluid solid coupled systems : advanced hybrid methods for reduction of uncertainty on stability limits and optimization of nuclear safety barrier reliability – Baresafe
BARESAFE (Numerical modeling of multi-scale fluid solid coupled systems : advanced hybrid methods for reduction of uncertainty on stability limits and optimization of nuclear safety barrier reliability) is a research project involved in the development of modeling and advanced numerical methods for
Assembly process simulation of flexible components in digital mockup – Flecto
The PLM software editors propose to the manufacturing industries (automotive, aerospace…) a set of tools to simulate the product and the manufacturing processes thanks to numerical models. One of these tools is the simulation of the part assembly or disassembly to validate the final assembly process
Mathematical and numerical modeling for wave propagation in the presence of metamaterials – METAMATH
Recent discoveries have shown the feasibility of weakly dissipative electromagnetic materials, whose effective dielectric and magnetic constants have negative real parts. These "metamaterials," which have a complex multiscale structure, lead to extraordinary phenomena as regards the propagation of e
Parallel and multi physics approach for radio frequencies telecommunications and space applications – AMPERE
ANR « Modèles Numériques » program is focused on “research on modeling, simulation and optimization for producing numerical virtual worlds”. The AMPERE project is quite compliant to this frame. AMPERE deals with electromagnetic fields simulation within a virtual 3D scene. The proposed activity doe
Data mining for assessing and monitoring the hydrobiologic quality of running waters – Fresqueau
The project will contribute to answer to two specific issues: (1) going further into the understanding of running waters functioning through the analysis of the taxons at the base of biological indices (2) connecting sources of pressures on the environment to the physicochemical and biological quali
Modelling of an austenitic weld inspected by ultrasonic testing – MOSAICS
The MOSAICS project (Modelling of an austenitic weld inspected by ultrasonic testing) aims at developping modelling codes in order to improve the predication of the ultrasonic propagation in austenitic welds and to help to an inspection diagnosis. The welded components of EDF and DCNS equipments are
Efficient algorithms for realistic large-scale models in the probabilistic context: Fundamental developments and applications. – ProbAlg
Today biology provides amongst the most challenging problems for numerical and algorithmic developments. Notably large-scale genomic projects and the current endeavor to gain an understanding of the functioning of a cell on a structural level necessitate the development of new concepts and algorithm
Asynchronous methods for combustion and atmospheric plasmas – MACOPA
The MACOPA project focuses on developing a generic software toolbox for the simulation of multi-scale multi-physics transport problems. These problems typically deal with very stiff and localized source terms. Indeed many natural of industrial phenomena exhibit this behaviour. Large-scale effects ar
Numerical Design Methods and Tools of Wave Energy Converters – MONACOREV
Usual numerical models for seakeeping analysis of offshore structures have difficulties to deal with the specifics of wave energy converters. at machine scale, it is the large amplitude motion feature for which usual linearity assumptions fail. At array scale, numerical requirements become prohibiti
Modeling and Multi-Scale Simulation of Interfaces – MODEMI
The project aims to advance the methodology of supercomputing in the fields of fluid mechanics. Indeed two-phase flow is extremely complex while of considerable importance for applications. We can cite for example breaking waves and the formation of spray, liquid jet fuel atomization, bubbly flows
Advanced Hybrid method for the TOLerance Analysis of complex system – AHTOLA
As technology increases and performance requirements continually tighten, the cost and the required precision of assemblies increase as well. Due to the variations associated with manufacturing process, it is not possible to attain the theoretical dimensions in a repetitive manner. It causes a degra
seminal MOTility Imaging and MOdeling for automatized fertility assessment – MOTIMO
The goal of the MOTIMO project is to develop the concepts necessary to the design of automated fertility tests of animal semen samples. The turbulence of the semen liquid induced by spermatozoa motion, the so-called massal motility can be observed through a microscope. It has been established that m