Difference between revisions of "Ecfd:ecfd 4th edition"
From Extreme CFD workshop
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== Description == | == Description == | ||
| − | + | {| align="right" style="text-align:center;" cellpadding="2" | |
| − | * Virtual event from '''22nd to 26th of March 2021''' | + | | [[File:logo_ecfd4.png | center | thumb | 300px | ECFD4 workshop logo.]] |
| + | |} | ||
| + | * Virtual event from '''22nd to 26th of March 2021''' | ||
* Two types of sessions: | * Two types of sessions: | ||
** common technical presentations: roadmaps, specific points. | ** common technical presentations: roadmaps, specific points. | ||
** mini-workshops. Potential workshops are listed below. | ** mini-workshops. Potential workshops are listed below. | ||
* Free of charge | * Free of charge | ||
| + | * More than 50 participants from academics (CERFACS, CORIA, IMAG, LEGI, UMONS, UVM, VUB), HPC center/experts (GENCI, IDRIS, NVIDIA, HPE) and industry (Safran, Ariane Group). | ||
| − | To participate, please provide your first and last names and your email [https://doodle.com/poll/6xdy9pwgr25csfre?utm_source=poll&utm_medium=link '''HERE''' ] | + | Annoncement on Linkedin [https://www.linkedin.com/posts/christelle-piechurski-429b3925_the-4th-extreme-computational-fluid-dynamics-activity-6777492300546236416-njcV '''HERE'''] |
| + | <!--To participate, please provide your first and last names and your email [https://doodle.com/poll/6xdy9pwgr25csfre?utm_source=poll&utm_medium=link '''HERE''' ] --> | ||
== Objectives == | == Objectives == | ||
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* Identify industrial needs and challenges in high-performance computing | * Identify industrial needs and challenges in high-performance computing | ||
* Propose action plans to add to the development roadmaps of the AVBP and YALES2 codes | * Propose action plans to add to the development roadmaps of the AVBP and YALES2 codes | ||
| − | |||
== Tentative Mini-workshops == | == Tentative Mini-workshops == | ||
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These mini-workshops may change and cover more or less topics. This page will be adapted according to your feedback. | These mini-workshops may change and cover more or less topics. This page will be adapted according to your feedback. | ||
| − | === Combustion - | + | === Combustion - B. Cuenot, CERFACS === |
| − | * H2 combustion | + | * H2 and alternative fuels combustion |
| + | * turbulent combustion modeling | ||
=== Dynamic mesh adaptation - G. Balarac, LEGI === | === Dynamic mesh adaptation - G. Balarac, LEGI === | ||
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* higher-order finite-volume schemes | * higher-order finite-volume schemes | ||
* finite-volume schemes for anisotropic meshes | * finite-volume schemes for anisotropic meshes | ||
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| − | |||
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=== Turbulent flows - P. Bénard, CORIA === | === Turbulent flows - P. Bénard, CORIA === | ||
* turbulence injection | * turbulence injection | ||
* wall modeling | * wall modeling | ||
| + | * rotor modeling for wind or hydro turbines applications | ||
=== User experience - R. Mercier, SAFRAN TECH === | === User experience - R. Mercier, SAFRAN TECH === | ||
* automation & workflows for HPC | * automation & workflows for HPC | ||
| + | * on-line and off-line analysis of massive datasets | ||
| + | |||
| + | === Fluid structure interaction - S. Mendez, IMAG === | ||
| + | * parallel and robust methods for FSI with partitioned approach | ||
| + | |||
| + | === GENCI Hackathon - G. Staffelbach, CERFACS === | ||
| + | * Porting to GPU with OpenACC | ||
Revision as of 19:41, 16 March 2021
Contents
- 1 Description
- 2 Objectives
- 3 Tentative Mini-workshops
- 3.1 Combustion - B. Cuenot, CERFACS
- 3.2 Dynamic mesh adaptation - G. Balarac, LEGI
- 3.3 Multi-phase flows - V. Moureau, CORIA
- 3.4 Numerics - G. Lartigue, CORIA
- 3.5 Turbulent flows - P. Bénard, CORIA
- 3.6 User experience - R. Mercier, SAFRAN TECH
- 3.7 Fluid structure interaction - S. Mendez, IMAG
- 3.8 GENCI Hackathon - G. Staffelbach, CERFACS
Description
- Virtual event from 22nd to 26th of March 2021
- Two types of sessions:
- common technical presentations: roadmaps, specific points.
- mini-workshops. Potential workshops are listed below.
- Free of charge
- More than 50 participants from academics (CERFACS, CORIA, IMAG, LEGI, UMONS, UVM, VUB), HPC center/experts (GENCI, IDRIS, NVIDIA, HPE) and industry (Safran, Ariane Group).
Annoncement on Linkedin HERE
Objectives
- Bring together experts in high-performance computing, applied mathematics and multi-physics CFDs
- Identify the technological barriers of exaflopic CFD via numerical experiments
- Identify industrial needs and challenges in high-performance computing
- Propose action plans to add to the development roadmaps of the AVBP and YALES2 codes
Tentative Mini-workshops
These mini-workshops may change and cover more or less topics. This page will be adapted according to your feedback.
Combustion - B. Cuenot, CERFACS
- H2 and alternative fuels combustion
- turbulent combustion modeling
Dynamic mesh adaptation - G. Balarac, LEGI
- anisotropic mesh adaptation
- adaptation criteria for anisotropic mesh adaptation
- adaptation of periodic domains
- unsteady turbulence - turbulent/non-turbulent interfaces
Multi-phase flows - V. Moureau, CORIA
- scalar transport in two-phase flows
- three-phase flows: contact angle
Numerics - G. Lartigue, CORIA
- implicit time integration for compressible/incompressible flows
- higher-order finite-volume schemes
- finite-volume schemes for anisotropic meshes
Turbulent flows - P. Bénard, CORIA
- turbulence injection
- wall modeling
- rotor modeling for wind or hydro turbines applications
User experience - R. Mercier, SAFRAN TECH
- automation & workflows for HPC
- on-line and off-line analysis of massive datasets
Fluid structure interaction - S. Mendez, IMAG
- parallel and robust methods for FSI with partitioned approach
GENCI Hackathon - G. Staffelbach, CERFACS
- Porting to GPU with OpenACC
