Difference between revisions of "Ecfd:ecfd 4th edition"

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== Description ==
 
== Description ==
 +
 
Virtual event from 22nd to 26th of March 2021.
 
Virtual event from 22nd to 26th of March 2021.
  
 +
To participate:
  
 +
== 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
  
To participate:
 
  
 
== Mini-workshops ==
 
== Mini-workshops ==

Revision as of 18:20, 5 January 2021


Description

Virtual event from 22nd to 26th of March 2021.

To participate:

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


Mini-workshops

Combustion - O. Vermorel, CERFACS

  • H2 combustion

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

Porting to GPU - G. Staffelbach, CERFACS

  • OpenACC

Turbulent flows - P. Bénard, CORIA

  • turbulence injection
  • wall modeling

User experience - R. Mercier, SAFRAN TECH

  • automation & workflows for HPC