his paper describes a hybrid CPU/GPU approach for solving a two-phase mathematical model numerically. The dynamic of drug release between the first phase (coating) and second phase (arterial tissue) is represented by a system of partial differential equations (PDEs). The system of equations is discretized by Finite Element Method. The whole discretized system involves a large sparse system of equation which requires a high computation. The CPU/GPU approach provides a platform to solve PDEs having extensive computations in parallel. Consequently, this platform can significantly reduce the solution times as compared to the implementation of CPU. This allows for more efficient investigation of different mathematical models, as well as, the gov...
Computational Fluid Dynamics (CFD) simulations are aimed to reconstruct the reality of fluid motion ...
The introduction of general-purpose Graphics Processing Units (GPUs) is boosting scientific applicat...
We present an implementation of a nonlinear explicit, displacement-based finite element code and its...
Abstract—The authors ’ main interest was to develop vascular solid tumour growth model, implement ef...
The controlled drug delivery in drug eluting stents exerts an important influence in decreasing rest...
The use of biomechanical modelling, especially in conjunction with finite element analysis, has beco...
Abstract—Developing patient specific model for the simula-tion of chemotherapy drug injection is imp...
Computationally demanding numerical simulations can be significantly accelerated using GPU (Graphics...
A finite element code is developed in which all computational expensive steps are performed on a gra...
Biomedical engineering solutions like surgical simulators need High Performance Computing (HPC) to a...
The goal of this thesis is to find a suitable model of fluids, the numerical simulation of which can...
A two phase coupled mathematical model for investigating the drug release in drug eluting stents is ...
Motivation: Mathematical modelling is central to systems and synthetic biology. Using simulations to...
We present parallelization of single and two phase flow CFD solvers on a graphics processing unit (G...
The introduction of general-purpose Graphics Processing Units (GPUs) is boosting scientific applicat...
Computational Fluid Dynamics (CFD) simulations are aimed to reconstruct the reality of fluid motion ...
The introduction of general-purpose Graphics Processing Units (GPUs) is boosting scientific applicat...
We present an implementation of a nonlinear explicit, displacement-based finite element code and its...
Abstract—The authors ’ main interest was to develop vascular solid tumour growth model, implement ef...
The controlled drug delivery in drug eluting stents exerts an important influence in decreasing rest...
The use of biomechanical modelling, especially in conjunction with finite element analysis, has beco...
Abstract—Developing patient specific model for the simula-tion of chemotherapy drug injection is imp...
Computationally demanding numerical simulations can be significantly accelerated using GPU (Graphics...
A finite element code is developed in which all computational expensive steps are performed on a gra...
Biomedical engineering solutions like surgical simulators need High Performance Computing (HPC) to a...
The goal of this thesis is to find a suitable model of fluids, the numerical simulation of which can...
A two phase coupled mathematical model for investigating the drug release in drug eluting stents is ...
Motivation: Mathematical modelling is central to systems and synthetic biology. Using simulations to...
We present parallelization of single and two phase flow CFD solvers on a graphics processing unit (G...
The introduction of general-purpose Graphics Processing Units (GPUs) is boosting scientific applicat...
Computational Fluid Dynamics (CFD) simulations are aimed to reconstruct the reality of fluid motion ...
The introduction of general-purpose Graphics Processing Units (GPUs) is boosting scientific applicat...
We present an implementation of a nonlinear explicit, displacement-based finite element code and its...