AbstractWe present a numerical scheme geared for high performance computation of wall-bounded turbulent flows. The number of all-to-all communications is decreased to only six instances by using a two-dimensional (pencil) domain decomposition and utilizing the favourable scaling of the CFL time-step constraint as compared to the diffusive time-step constraint. As the CFL condition is more restrictive at high driving, implicit time integration of the viscous terms in the wall-parallel directions is no longer required. This avoids the communication of non-local information to a process for the computation of implicit derivatives in these directions. We explain in detail the numerical scheme used for the integration of the equations, and the u...
A line-implicit scheme using an implicit-explicit Runge-Kutta method is presented for time-accurate ...
Abstract This study proposes a new forcing scheme suitable for massively-parallel finite-difference ...
The volume-penalization method allows in principal the use of fast Fourier pseudospectral techniques...
We present a numerical scheme geared for high performance computation of wall-bounded turbulent flow...
AbstractWe present a numerical scheme geared for high performance computation of wall-bounded turbul...
A numerical method for the direct numerical simulation of incompressible wall turbulence in rectangu...
A new method to perform direct numerical simulations of wall-bounded flows has been developed and im...
A numerical method for the direct numerical simulation of incompressible wall turbulence in rectangu...
An algorithm for the Direct Numerical Simulation (DNS) of the incompressible Navier–Stokes equations...
In the present work, a highly efficient incompressible flow solver with a semi-implicit time advance...
Physics-based simulation, Computational Fluid Dynamics (CFD) in particular, has substantially reshap...
This paper discusses the implementation of a numerical algorithm for simulating incompressible fluid...
AbstractWhen solving time-dependent partial differential equations on parallel computers using the n...
Turbulent Channel flow will be simulated directly by solving the Navier-Stokes equations by a finite...
When solving time-dependent partial differential equations on parallel computers using the nonoverla...
A line-implicit scheme using an implicit-explicit Runge-Kutta method is presented for time-accurate ...
Abstract This study proposes a new forcing scheme suitable for massively-parallel finite-difference ...
The volume-penalization method allows in principal the use of fast Fourier pseudospectral techniques...
We present a numerical scheme geared for high performance computation of wall-bounded turbulent flow...
AbstractWe present a numerical scheme geared for high performance computation of wall-bounded turbul...
A numerical method for the direct numerical simulation of incompressible wall turbulence in rectangu...
A new method to perform direct numerical simulations of wall-bounded flows has been developed and im...
A numerical method for the direct numerical simulation of incompressible wall turbulence in rectangu...
An algorithm for the Direct Numerical Simulation (DNS) of the incompressible Navier–Stokes equations...
In the present work, a highly efficient incompressible flow solver with a semi-implicit time advance...
Physics-based simulation, Computational Fluid Dynamics (CFD) in particular, has substantially reshap...
This paper discusses the implementation of a numerical algorithm for simulating incompressible fluid...
AbstractWhen solving time-dependent partial differential equations on parallel computers using the n...
Turbulent Channel flow will be simulated directly by solving the Navier-Stokes equations by a finite...
When solving time-dependent partial differential equations on parallel computers using the nonoverla...
A line-implicit scheme using an implicit-explicit Runge-Kutta method is presented for time-accurate ...
Abstract This study proposes a new forcing scheme suitable for massively-parallel finite-difference ...
The volume-penalization method allows in principal the use of fast Fourier pseudospectral techniques...