The parallel implementation of MUPHY, a concurrent multiscale code for large-scale hemodynamic simulations in anatomically realistic geometries, for multi-GPU platforms is presented. Performance tests show excellent results, with a nearly linear parallel speed-up on up to 32GPUs and a more than tenfold GPU/CPU acceleration, all across the range of GPUs. The basic MUPHY scheme combines a hydrokinetic (Lattice Boltzmann) representation of the blood plasma, with a Particle Dynamics treatment of suspended biological bodies, such as red blood cells. To the best of our knowledge, this represents the first effort in the direction of laying down general design principles for multiscale/physics parallel Particle Dynamics applications in non-ideal ge...
Recent developments of the lattice Boltzmann method for large-scale haemodynamic applications are pr...
Simulation of human blood flow is a demanding task both in terms of the complexity of applicable mod...
We present a computational method for commodity hardware-based clinical cardiovascular diagnosis bas...
The parallel implementation of MUPHY, a concurrent multiscale code for large-scale hemodynamic simul...
The spatial domain of Molecular Dynamics simulations is usually a regular box that can be easily div...
We demonstrate the excellent parallel scalability and global performance on the IBM Blue-Gene Superc...
In recent years, it has become increasingly common for high performance computers (HPC) to possess s...
This thesis focuses on the Lagrangian approach to fluid simulation, its parallelization, and its app...
We describe the porting of the Lattice Boltzmann component of MUPHY, a multi-physics/scale simulatio...
Accurate and reliable modeling of cardiovascular hemodynamics has the potential to improve understan...
Mesoscopic numerical simulations provide a unique approach for the quantification of the chemical in...
The study of blood dynamics requires the inclusion of several levels of description, ranging from th...
Accurate and reliable modeling of cardiovascular hemodynamics has the potential to improve understan...
The Computational Haemodynamics Research Group (CHRG) in Technological University Dublin is developi...
Compute Unified Device Architecture (CUDA) was used to design and implement molecular dynamics (MD) ...
Recent developments of the lattice Boltzmann method for large-scale haemodynamic applications are pr...
Simulation of human blood flow is a demanding task both in terms of the complexity of applicable mod...
We present a computational method for commodity hardware-based clinical cardiovascular diagnosis bas...
The parallel implementation of MUPHY, a concurrent multiscale code for large-scale hemodynamic simul...
The spatial domain of Molecular Dynamics simulations is usually a regular box that can be easily div...
We demonstrate the excellent parallel scalability and global performance on the IBM Blue-Gene Superc...
In recent years, it has become increasingly common for high performance computers (HPC) to possess s...
This thesis focuses on the Lagrangian approach to fluid simulation, its parallelization, and its app...
We describe the porting of the Lattice Boltzmann component of MUPHY, a multi-physics/scale simulatio...
Accurate and reliable modeling of cardiovascular hemodynamics has the potential to improve understan...
Mesoscopic numerical simulations provide a unique approach for the quantification of the chemical in...
The study of blood dynamics requires the inclusion of several levels of description, ranging from th...
Accurate and reliable modeling of cardiovascular hemodynamics has the potential to improve understan...
The Computational Haemodynamics Research Group (CHRG) in Technological University Dublin is developi...
Compute Unified Device Architecture (CUDA) was used to design and implement molecular dynamics (MD) ...
Recent developments of the lattice Boltzmann method for large-scale haemodynamic applications are pr...
Simulation of human blood flow is a demanding task both in terms of the complexity of applicable mod...
We present a computational method for commodity hardware-based clinical cardiovascular diagnosis bas...