Media Summary: Presented at the Argonne Training Program on Extreme-Scale Computing 2019. Slides for this presentation are available here: ... In this tutorial, we will see how to implement Re = 837 Plate thickness H = 8.1×10-4 m Width-to-thickness ratio is Λ = 8 Dimensionless moment of inertia is I* = 0.29 Aluminum ...

Block Structured Amr Adaptive Mesh - Detailed Analysis & Overview

Presented at the Argonne Training Program on Extreme-Scale Computing 2019. Slides for this presentation are available here: ... In this tutorial, we will see how to implement Re = 837 Plate thickness H = 8.1×10-4 m Width-to-thickness ratio is Λ = 8 Dimensionless moment of inertia is I* = 0.29 Aluminum ... Tank length L=0.5m λ/L=1.0 wave height/L=0.13 refinement level 2-6 Re=740, We=3530 Diameter 0.1mm refinement level 3-9 Re=440, We=1270 Diameter 0.1mm refinement level 3-9

Re = 1147 Plate thickness H = 8.1×10-4 m Width-to-thickness ratio Λ = 14 Dimensionless moment of inertia I* = 0.16 Aluminum ... Simulation of a 2D Kelvin–Helmholtz instability with a discontinuous Galerkin spectral element method on a hierarchical Cartesian ... Tank length L=0.2m λ/L=1.0 wave height/L=0.13 refinement level 2-5 DTMB-5415 ship hull Fr=0.28 refinement level 2-5

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AMReX: Building a Block-Structured AMR Application ǀ Ann Almgren and Donald Willcox, LBNL
Adaptive Mesh Refinement (AMR) | OpenFOAM
Adaptive Mesh Refinement (AMR) in OpenFOAM: Consistent Interface Resolution for Atomization
AMReX Helps Scientists Optimally Focus Computing Power on the Most Critical Problems
Block-Structured AMR (adaptive mesh refinement) for FSI (fluid structure interaction)  Case 2
Block-Structured AMR (adaptive mesh refinement) for breaking wave case-2 a
Block-Structured AMR (adaptive mesh refinement) for jet atomization, case-2
Block-Structured AMR (adaptive mesh refinement) for jet atomization, case-1
Block-Structured AMR (adaptive mesh refinement) for FSI (fluid structure interaction)  Case 1
Kelvin–Helmholtz instability simulation with adaptive mesh refinement
Block-Structured AMR (adaptive mesh refinement) for Jet impeling
Block-Structured AMR (adaptive mesh refinement) for breaking wave case-1
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AMReX: Building a Block-Structured AMR Application ǀ Ann Almgren and Donald Willcox, LBNL

AMReX: Building a Block-Structured AMR Application ǀ Ann Almgren and Donald Willcox, LBNL

Presented at the Argonne Training Program on Extreme-Scale Computing 2019. Slides for this presentation are available here: ...

Adaptive Mesh Refinement (AMR) | OpenFOAM

Adaptive Mesh Refinement (AMR) | OpenFOAM

In this tutorial, we will see how to implement

Adaptive Mesh Refinement (AMR) in OpenFOAM: Consistent Interface Resolution for Atomization

Adaptive Mesh Refinement (AMR) in OpenFOAM: Consistent Interface Resolution for Atomization

Adaptive Mesh

AMReX Helps Scientists Optimally Focus Computing Power on the Most Critical Problems

AMReX Helps Scientists Optimally Focus Computing Power on the Most Critical Problems

The AMReX:

Block-Structured AMR (adaptive mesh refinement) for FSI (fluid structure interaction)  Case 2

Block-Structured AMR (adaptive mesh refinement) for FSI (fluid structure interaction) Case 2

Re = 837 Plate thickness H = 8.1×10-4 m Width-to-thickness ratio is Λ = 8 Dimensionless moment of inertia is I* = 0.29 Aluminum ...

Block-Structured AMR (adaptive mesh refinement) for breaking wave case-2 a

Block-Structured AMR (adaptive mesh refinement) for breaking wave case-2 a

Tank length L=0.5m λ/L=1.0 wave height/L=0.13 refinement level 2-6

Block-Structured AMR (adaptive mesh refinement) for jet atomization, case-2

Block-Structured AMR (adaptive mesh refinement) for jet atomization, case-2

Re=740, We=3530 Diameter 0.1mm refinement level 3-9

Block-Structured AMR (adaptive mesh refinement) for jet atomization, case-1

Block-Structured AMR (adaptive mesh refinement) for jet atomization, case-1

Re=440, We=1270 Diameter 0.1mm refinement level 3-9

Block-Structured AMR (adaptive mesh refinement) for FSI (fluid structure interaction)  Case 1

Block-Structured AMR (adaptive mesh refinement) for FSI (fluid structure interaction) Case 1

Re = 1147 Plate thickness H = 8.1×10-4 m Width-to-thickness ratio Λ = 14 Dimensionless moment of inertia I* = 0.16 Aluminum ...

Kelvin–Helmholtz instability simulation with adaptive mesh refinement

Kelvin–Helmholtz instability simulation with adaptive mesh refinement

Simulation of a 2D Kelvin–Helmholtz instability with a discontinuous Galerkin spectral element method on a hierarchical Cartesian ...

Block-Structured AMR (adaptive mesh refinement) for Jet impeling

Block-Structured AMR (adaptive mesh refinement) for Jet impeling

Diameter=500𝜇m, Re=3300, We=289

Block-Structured AMR (adaptive mesh refinement) for breaking wave case-1

Block-Structured AMR (adaptive mesh refinement) for breaking wave case-1

Tank length L=0.2m λ/L=1.0 wave height/L=0.13 refinement level 2-5

Block-Structured AMR (adaptive mesh refinement) for DTMB 5415 ship wave Fr 0.28 (IB method)

Block-Structured AMR (adaptive mesh refinement) for DTMB 5415 ship wave Fr 0.28 (IB method)

DTMB-5415 ship hull Fr=0.28 refinement level 2-5