OpenSBLI v3. 0: High-fidelity multi-block transonic aerofoil CFD simulations using domain specific languages on GPUs
OpenSBLI is an automatic code-generation framework for compressible Computational Fluid
Dynamics (CFD) simulations on heterogeneous computing architectures (previous release …
Dynamics (CFD) simulations on heterogeneous computing architectures (previous release …
A new type of non-polynomial based TENO scheme for hyperbolic conservation laws
T Liang, L Fu - Journal of Computational Physics, 2024 - Elsevier
For classical WENO/TENO reconstructions, the high-order polynomial interpolation is one of
the main building-blocks for constructing the numerical fluxes. However, due to the inherent …
the main building-blocks for constructing the numerical fluxes. However, due to the inherent …
[HTML][HTML] High-speed turbulent flows towards the exascale: STREAmS-2 porting and performance
Abstract Exascale High Performance Computing (HPC) represents a tremendous
opportunity to push the boundaries of Computational Fluid Dynamics (CFD), but despite the …
opportunity to push the boundaries of Computational Fluid Dynamics (CFD), but despite the …
[HTML][HTML] On the coupling between wall-modeled LES and immersed boundary method towards applicative compressible flow simulations
The current work presents an innovative numerical technique for high-Reynolds/high-Mach
number compressible flow simulations in complex configurations. In particular, the research …
number compressible flow simulations in complex configurations. In particular, the research …
A GPU-Accelerated Modern Fortran Version of the ECHO Code for Relativistic Magnetohydrodynamics
The numerical study of relativistic magnetohydrodynamics (MHD) plays a crucial role in high-
energy astrophysics but unfortunately is computationally demanding, given the complex …
energy astrophysics but unfortunately is computationally demanding, given the complex …
[HTML][HTML] URANOS-2.0: Improved performance, enhanced portability, and model extension towards exascale computing of high-speed engineering flows
F De Vanna, G Baldan - Computer Physics Communications, 2024 - Elsevier
Abstract We present URANOS-2.0, the second major release of our massively parallel, GPU-
accelerated solver for compressible wall flow applications. This latest version represents a …
accelerated solver for compressible wall flow applications. This latest version represents a …
Method for portable, scalable, and performant GPU-accelerated simulation of multiphase compressible flow
Multiphase compressible flows are often characterized by a broad range of space and time
scales. Thus entailing large grids and small time steps, simulations of these flows on CPU …
scales. Thus entailing large grids and small time steps, simulations of these flows on CPU …
Method for scalable and performant GPU-accelerated simulation of multiphase compressible flow
A Radhakrishnan, H Le Berre, B Wilfong… - Computer Physics …, 2024 - Elsevier
Multiphase compressible flows are often characterized by a broad range of space and time
scales, entailing large grids and small time steps. Simulations of these flows on CPU-based …
scales, entailing large grids and small time steps. Simulations of these flows on CPU-based …
Spectrum correction on Ekman-Navier-Stokes equation in two-dimensions
It has been long known that the addition of linear friction on two-dimensional Navier-Stokes
(NS) turbulence, often referred to as Ekman-Navier-Stokes (ENS) turbulence, induces strong …
(NS) turbulence, often referred to as Ekman-Navier-Stokes (ENS) turbulence, induces strong …
A novel Lax–Wendroff type procedure of two-derivative time-stepping schemes for Euler and Navier–Stokes equations
X Qin, X Zhang, J Yu, C Yan - Communications in Nonlinear Science and …, 2025 - Elsevier
In this paper, we developed a novel Lax–Wendroff (LW) type procedure of two-derivative
time-stepping schemes for the Euler and Navier–Stokes equations. The explicit two …
time-stepping schemes for the Euler and Navier–Stokes equations. The explicit two …