The performance of parallel implicit large eddy simulations (iLES) is investigated in conjunction with high-order weighted essentially non-oscillatory schemes up to 11th-order of accuracy. Simulations were performed for the Taylor Green Vortex and supersonic turbulent boundary layer flows on High Performance Computing (HPC) facilities. The present iLES are highly scalable achieving performance of approximately 93% and 68% on 1,536 and 6,144 cores, respectively, for simulations on a mesh of approximately 1.07 billion cells. The study also shows that high-order iLES attain accuracy similar to strict direct numerical simulation (DNS) but at a reduced computational cost
The use of high-order schemes continues to increase, with current methods becoming more robust and r...
Implicit Large Eddy Simulation (ILES) with high-resolution and high-order computational modelling w...
The paper presents application of Implicit Large Eddy Simulation(ILES)to wall- bounded turbulent flo...
The performance of parallel implicit large eddy simulations (iLES) is investigated in conjunction wi...
This paper investigates the accuracy of implicit large eddy simulations (ILES) in compressible turbu...
Restrictions on computing power make direct numerical simulation too expensive for complex flows; t...
This paper investigates the numerical accuracy of implicit Large Eddy Simulations (iLES) in relation...
This paper concerns the accuracy of several high-resolution and high-order finite volume schemes in ...
We review our recent progress in understanding the theoretical basis of Implicit Large Eddy Simulati...
In this paper, the Implicit Large-Eddy Simulation (ILES) is investigated on the flow around a square...
Abstract. We review our recent progress in understanding the theoretical basis of Implicit Large Edd...
In a prepared urban scale model of airflow within a complex geometry area the method of Implicit Lar...
We present a high-order implicit large-eddy simulation (ILES) approach for simulating transitional t...
We begin by investigating the stability, order of accuracy, and dispersion and dissipation character...
AbstractWe begin by investigating the stability, order of accuracy, and dispersion and dissipation c...
The use of high-order schemes continues to increase, with current methods becoming more robust and r...
Implicit Large Eddy Simulation (ILES) with high-resolution and high-order computational modelling w...
The paper presents application of Implicit Large Eddy Simulation(ILES)to wall- bounded turbulent flo...
The performance of parallel implicit large eddy simulations (iLES) is investigated in conjunction wi...
This paper investigates the accuracy of implicit large eddy simulations (ILES) in compressible turbu...
Restrictions on computing power make direct numerical simulation too expensive for complex flows; t...
This paper investigates the numerical accuracy of implicit Large Eddy Simulations (iLES) in relation...
This paper concerns the accuracy of several high-resolution and high-order finite volume schemes in ...
We review our recent progress in understanding the theoretical basis of Implicit Large Eddy Simulati...
In this paper, the Implicit Large-Eddy Simulation (ILES) is investigated on the flow around a square...
Abstract. We review our recent progress in understanding the theoretical basis of Implicit Large Edd...
In a prepared urban scale model of airflow within a complex geometry area the method of Implicit Lar...
We present a high-order implicit large-eddy simulation (ILES) approach for simulating transitional t...
We begin by investigating the stability, order of accuracy, and dispersion and dissipation character...
AbstractWe begin by investigating the stability, order of accuracy, and dispersion and dissipation c...
The use of high-order schemes continues to increase, with current methods becoming more robust and r...
Implicit Large Eddy Simulation (ILES) with high-resolution and high-order computational modelling w...
The paper presents application of Implicit Large Eddy Simulation(ILES)to wall- bounded turbulent flo...