Numerical solution of reaction–diffusion equations in three dimensions is one of the most challenging applied mathematical problems. Since these simulations are very time consuming, any ideas and strategies aiming at the reduction of CPU time are important topics of research. A general and robust idea is the parallelization of source codes/programs. Recently, the technological development of graphics hardware created a possibility to use desktop video cards to solve numerically intensive problems. We present a powerful parallel computing framework for solving reaction–diffusion equations numerically using the Graphics Processing Units (GPUs) with CUDA. Four different reaction–diffusion problems, (i) diffusion of chemically inert compound, (...
In the last years, graphics processing units (GPUs) witnessed ever growing applications for a wide r...
We present a scalable dissipative particle dynamics simulation code, fully implemented on the Graphi...
Combustion simulations with finite-rate chemistry rely on accurate and efficient methods for solving...
The most commonly used approach for solving reaction–diffusion systems relies upon stencil computati...
AbstractSimulation of in vivo cellular processes with the reaction–diffusion master equation (RDME) ...
Graphic processing units (GPUs) are powerful graphics engines featuring high levels of parallelism a...
Rotating detonation engine is a new concept engine driven by detonation combustion for aerospace veh...
AbstractCUDA (Compute Unified Device Architecture) is a parallel computing platform and programming ...
The focus of the current research is to develop a numerical framework on the Graphic Processing Unit...
The computational investigation of a biological system often requires the execution of a large numbe...
Solving the electric activity of the heart possess a big challenge, not only because of the structur...
To address the problem of performing long time simula-tions of biochemical pathways under in vivo ce...
Abstract. Molecular dynamics simulations are a common and often repeated task in molecular biology. ...
This paper presents a Graphics Processing Unit (GPU) acceleration of an iteration-based discrete vel...
Molecular dynamics is an important computational tool to simulate and understand biochemical process...
In the last years, graphics processing units (GPUs) witnessed ever growing applications for a wide r...
We present a scalable dissipative particle dynamics simulation code, fully implemented on the Graphi...
Combustion simulations with finite-rate chemistry rely on accurate and efficient methods for solving...
The most commonly used approach for solving reaction–diffusion systems relies upon stencil computati...
AbstractSimulation of in vivo cellular processes with the reaction–diffusion master equation (RDME) ...
Graphic processing units (GPUs) are powerful graphics engines featuring high levels of parallelism a...
Rotating detonation engine is a new concept engine driven by detonation combustion for aerospace veh...
AbstractCUDA (Compute Unified Device Architecture) is a parallel computing platform and programming ...
The focus of the current research is to develop a numerical framework on the Graphic Processing Unit...
The computational investigation of a biological system often requires the execution of a large numbe...
Solving the electric activity of the heart possess a big challenge, not only because of the structur...
To address the problem of performing long time simula-tions of biochemical pathways under in vivo ce...
Abstract. Molecular dynamics simulations are a common and often repeated task in molecular biology. ...
This paper presents a Graphics Processing Unit (GPU) acceleration of an iteration-based discrete vel...
Molecular dynamics is an important computational tool to simulate and understand biochemical process...
In the last years, graphics processing units (GPUs) witnessed ever growing applications for a wide r...
We present a scalable dissipative particle dynamics simulation code, fully implemented on the Graphi...
Combustion simulations with finite-rate chemistry rely on accurate and efficient methods for solving...