Loading...
Bienvenue sur la collection HAL de la Maison de la Simulation, laboratoire commun au CEA, au CNRS, à l'Université Paris-Saclay et à l'Université Versailles Saint-Quentin. Elle est spécialisée dans le calcul haute performance et les simulations numériques en lien étroit avec les applications physiques, le génie logiciel parallèle, les modèles de programmation, les techniques de visualisation, l'intelligence artificielle et l'informatique quantique.
Nombre de documents
275
Nombre de notices
117
Indicateur d'Open Access
Evolution des dépôts
mots clés
MPI
Unite and Conquer
Boosting
Dask
Approximate Riemann solver
ISM clouds
Large time steps
Planets and satellites composition
Magnetohydrodynamics
Two-phase flows
Plasma physics
Turbulence
HII regions
High Performance Computing
Laser
Astrophysics - Earth and Planetary Astrophysics
Methods numerical
Planets and satellites fundamental parameters
AMITEXFFTP
Astrochemistry
Calcul haute performance
Astrophysics - Astrophysics of Galaxies
Interferometers-planets and satellites
Asynchronous communication
OpenMP
Brown dwarfs
Aerodynamics
Accretion disks
Convection
HPC
Data parallelism
Surface tension
Cybersecurity
Sharp interface
Complex and heterogeneous dynamic system
Planets and satellites interiors
Well-balanced property
Efficiency
Geometric multigrid
Schrödinger equation
Low Froude
High angular resolution
Domain decomposition
Astrophysics - Solar and Stellar Astrophysics
Supercapacitors
Energy
Instrumentation
Insider threat
Methods statistical
High performance computing
CUDA
Solvation
Low-Mach correction
Detection-techniques
Big data
Shallow water equations
Hydrodynamics
Unite and conquer
Planets and satellites gaseous planets
Exascale
ISM molecules
Ghost Fluid method
Epidemic
65Y05
Parallel computing
Methods data analysis
Godunov-type scheme
Planets and satellites formation
Radiative transfer
ISM kinematics and dynamics
Stars massive
Linear algebra
Sparse matrix
Hyperbolic systems
Infrared planetary systems
GPU computing
Planets and satellites atmospheres
Techniques spectroscopic
ISM structure
Ensemble learning
Stars formation
FFT
Accretion
Adaptive optics-instrumentation
Gravitational effects
Level-Set
ISM individual objects Orion B
Big data analysis
Conservation laws
Astrometry
Compressible two-phase flow
Dynamic processes
Supernovae general
Electron
Bagging
Iterative methods
Linear systems
Water
Gas dynamics
Low Mach correction