Nowadays the need for powerful hardware architectures, which allow for high throughput data analysis and calculus, is fundamental especially for biological applications. We have been focused on utilizing the Graphic Processing Unit (GPU) architectures of NVIDIA for accelerating a lipid bilayer simulation tool for biomembranes. ©2010 IEEE
Abstract. Molecular dynamics simulations are a common and often repeated task in molecular biology. ...
The graphics processing unit (GPU) has become an integral part oftoday's mainstream computing system...
6nonenoneBESOZZI, DANIELA; CARAVAGNA, GIULIO; CAZZANIGA, PAOLO; NOBILE, MARCO SALVATORE; PESCINI, DA...
Nowadays the need for powerful hardware architectures, which allow for high throughput data analysis...
Many essential cell processes, such as the conformation of embedded proteins, membrane permeability,...
Many essential cell processes, such as the conformation of embedded proteins, membrane permeability,...
Motivation: Mathematical modelling is central to systems and synthetic biology. Using simulations to...
The reliability of cardiovascular computational models depends on the accurate solution of the hemod...
AbstractMembrane computing is a theoretical model of computation that inspired from the structure an...
The study of biological systems witnessed a pervasive cross-fertilization between experimental inves...
In the paper we present the use of graphic processor units to accelerate the most time-consuming sta...
We created a powerful computing platform based on video cards with the goal of accelerating the perf...
Abstract—P systems or membrane systems provide a high level computational modeling framework that co...
The use of Graphics Processing Units (GPUs) has recently witnessed ever growing applications for dif...
Abstract: Molecular mechanics simulations offer a computational approach to study the behavior of bi...
Abstract. Molecular dynamics simulations are a common and often repeated task in molecular biology. ...
The graphics processing unit (GPU) has become an integral part oftoday's mainstream computing system...
6nonenoneBESOZZI, DANIELA; CARAVAGNA, GIULIO; CAZZANIGA, PAOLO; NOBILE, MARCO SALVATORE; PESCINI, DA...
Nowadays the need for powerful hardware architectures, which allow for high throughput data analysis...
Many essential cell processes, such as the conformation of embedded proteins, membrane permeability,...
Many essential cell processes, such as the conformation of embedded proteins, membrane permeability,...
Motivation: Mathematical modelling is central to systems and synthetic biology. Using simulations to...
The reliability of cardiovascular computational models depends on the accurate solution of the hemod...
AbstractMembrane computing is a theoretical model of computation that inspired from the structure an...
The study of biological systems witnessed a pervasive cross-fertilization between experimental inves...
In the paper we present the use of graphic processor units to accelerate the most time-consuming sta...
We created a powerful computing platform based on video cards with the goal of accelerating the perf...
Abstract—P systems or membrane systems provide a high level computational modeling framework that co...
The use of Graphics Processing Units (GPUs) has recently witnessed ever growing applications for dif...
Abstract: Molecular mechanics simulations offer a computational approach to study the behavior of bi...
Abstract. Molecular dynamics simulations are a common and often repeated task in molecular biology. ...
The graphics processing unit (GPU) has become an integral part oftoday's mainstream computing system...
6nonenoneBESOZZI, DANIELA; CARAVAGNA, GIULIO; CAZZANIGA, PAOLO; NOBILE, MARCO SALVATORE; PESCINI, DA...