Pressure projection is the single most computationally expensive step in an unsteady incompressible fluid simulation. This work demonstrates the ability of data-driven methods to accelerate the approximate solution of the Poisson equation at the heart of pressure projection. Geometric Multi-Grid methods are identified as linear convolutional encoder–decoder networks and a data-driven smoother is developed using automatic differentiation to optimize the velocity-divergence projection. The new method is found to accelerate classic Multi-Grid methods by a factor of two to three with no loss of accuracy on eleven 2D and 3D flow cases including cases with dynamic immersed solid boundaries. The optimal parameters are found to transfer nearly 100%...
This paper presents an overview of the issues associated with applying a domain-decomposition messag...
An original strategy to address hydrodynamic flow was recently proposed through a high-order weakly-...
Summarization: ForthenumericalsolutionofincompressibleNavier-Stokesequations using a high order acc...
Pressure projection is the single most computationally expensive step in an unsteady incompressible ...
Pressure projection is the single most computationally expensive step in an unsteady incompressible ...
none5This paper provides an analysis of a projection method for the solution of the unsteady incompr...
We describe several numerical solvers for the pressure Poisson equation arising in models of incompr...
A full multigrid/full approximation storage (FMG/FAS) method is developed along with a unified press...
A 3D unsteady computer solver is presented to compute incompressible Navier-Stokes equations combine...
The main objective of this thesis is to accelerate deflated Conjugate Gradient solvers used for solv...
The use of graphics hardware for general purpose computations allows scientists to enormously speed ...
Despite the current increase in computing power, Direct Numerical Simulations (DNS) of turbulent flo...
In this thesis, we describe a globally second-order accurate sharp immersed boundary projection meth...
We present a multi-block finite-difference solver for massively parallel Direct Numerical Simulation...
Summarization: An efficient parallel multigrid pressure correction algorithm is proposed for the sol...
This paper presents an overview of the issues associated with applying a domain-decomposition messag...
An original strategy to address hydrodynamic flow was recently proposed through a high-order weakly-...
Summarization: ForthenumericalsolutionofincompressibleNavier-Stokesequations using a high order acc...
Pressure projection is the single most computationally expensive step in an unsteady incompressible ...
Pressure projection is the single most computationally expensive step in an unsteady incompressible ...
none5This paper provides an analysis of a projection method for the solution of the unsteady incompr...
We describe several numerical solvers for the pressure Poisson equation arising in models of incompr...
A full multigrid/full approximation storage (FMG/FAS) method is developed along with a unified press...
A 3D unsteady computer solver is presented to compute incompressible Navier-Stokes equations combine...
The main objective of this thesis is to accelerate deflated Conjugate Gradient solvers used for solv...
The use of graphics hardware for general purpose computations allows scientists to enormously speed ...
Despite the current increase in computing power, Direct Numerical Simulations (DNS) of turbulent flo...
In this thesis, we describe a globally second-order accurate sharp immersed boundary projection meth...
We present a multi-block finite-difference solver for massively parallel Direct Numerical Simulation...
Summarization: An efficient parallel multigrid pressure correction algorithm is proposed for the sol...
This paper presents an overview of the issues associated with applying a domain-decomposition messag...
An original strategy to address hydrodynamic flow was recently proposed through a high-order weakly-...
Summarization: ForthenumericalsolutionofincompressibleNavier-Stokesequations using a high order acc...