In the paper we present the use of graphic processor units to accelerate the most time-consuming stages of a simulation of angiogenesis and tumor growth. By the use of advanced CUDA mechanisms such as shared memory, textures and atomic operations, we managed to speed up the CUDA kernels by a factor of 57x. However, in our simulation we used the GPU as a co-processor and data from CPU was copied back and forth in each phase. It decreased the speedup of rewritten stages by 40%. We showed that the performance of the entire simulation can be improved by a factor of 10 up to 20
In this technical note we show the promise of using graphic processing units (GPUs) to accelerate si...
In this paper, we propose a parallel cellular automaton tumor growth model that includes load balanc...
Numerical simulations of cellular membranes are useful for both basic science and increasingly for c...
In the paper we present the use of graphic processor units to accelerate the most time-consuming st...
In the paper we present the use of graphic processor units to accelerate the most time-consuming sta...
Angiogenesis, the formation of de novo blood vessels, has been implicated in a long list of human di...
Angiogenesis, the formation of de novo blood vessels, has been implicated in a long list of human di...
Abstract: The challenging issues of cancer prevention and cure lie in the need for a more detailed k...
We recently developed a computational model of tumour growth. It is a cell- based model that can sim...
Motivation: Mathematical modelling is central to systems and synthetic biology. Using simulations to...
This dissertation presents how to use parallel computing algorithms on the basis of graphics process...
Background: Simulation of sophisticated biological models requires considerable computational power....
The process through which new blood vessels are formed within the body is known as angiogenesis. An ...
In this paper we explore the possibility of using GP GPU technology (General Purpose Graphical Proce...
Surgical training in virtual environments, surgical simulation in other words, has previously had di...
In this technical note we show the promise of using graphic processing units (GPUs) to accelerate si...
In this paper, we propose a parallel cellular automaton tumor growth model that includes load balanc...
Numerical simulations of cellular membranes are useful for both basic science and increasingly for c...
In the paper we present the use of graphic processor units to accelerate the most time-consuming st...
In the paper we present the use of graphic processor units to accelerate the most time-consuming sta...
Angiogenesis, the formation of de novo blood vessels, has been implicated in a long list of human di...
Angiogenesis, the formation of de novo blood vessels, has been implicated in a long list of human di...
Abstract: The challenging issues of cancer prevention and cure lie in the need for a more detailed k...
We recently developed a computational model of tumour growth. It is a cell- based model that can sim...
Motivation: Mathematical modelling is central to systems and synthetic biology. Using simulations to...
This dissertation presents how to use parallel computing algorithms on the basis of graphics process...
Background: Simulation of sophisticated biological models requires considerable computational power....
The process through which new blood vessels are formed within the body is known as angiogenesis. An ...
In this paper we explore the possibility of using GP GPU technology (General Purpose Graphical Proce...
Surgical training in virtual environments, surgical simulation in other words, has previously had di...
In this technical note we show the promise of using graphic processing units (GPUs) to accelerate si...
In this paper, we propose a parallel cellular automaton tumor growth model that includes load balanc...
Numerical simulations of cellular membranes are useful for both basic science and increasingly for c...