Abstract—P systems or membrane systems provide a high level computational modeling framework that combines the structural and dynamic aspects of biological systems in a relevant and understandable way. P systems are massively parallel distributed, and non-deterministic systems. In this paper, we describe the implementation of a simulator for the class of recognizer P systems with active membranes by using the GPU (Graphics Processing Unit). We compare the high-performance parallel simulator for the GPU to the simulator developed on a single CPU (Central Processing Unit), and we show that the GPU is better suited than the CPU to simulate P systems due to its highly parallel nature. I
P systems are inherently parallel and non-deterministic theoretical computing devices defined inside...
Summary. We present in this paper our work regarding simulating a type of P sys-tem known as a spiki...
Membrane Computing is a discipline aiming to abstract formal computing models, called membrane syst...
GPUs (Graphics Processing Unit) have been con- solidated as a massively data-parallel coprocessor t...
Abstract—Since CUDA programing model appeared on the general purpose computations, the developers ca...
International audienceThe model of membrane computing, also known under the name of P systems, is a ...
Software development for cellular computing is growing up yielding new applications. In this paper,...
AbstractP systems are inherently parallel and non-deterministic theoretical computing devices define...
Software development for Membrane Computing is growing up yielding new applications. Nowadays, the ...
In order to provide e cient software tools to deal with large membrane systems, high-throughput sim...
In order to validate P system models and to assist on their formal verification, simulators are ind...
In this paper we present a Spiking Neural P system (SNP system) simulator based on graphics process...
The acceleration of P system simulations is required increasingly, since they are at the core of mo...
AbstractMembrane computing is a theoretical model of computation that inspired from the structure an...
Motivation: Mathematical modelling is central to systems and synthetic biology. Using simulations to...
P systems are inherently parallel and non-deterministic theoretical computing devices defined inside...
Summary. We present in this paper our work regarding simulating a type of P sys-tem known as a spiki...
Membrane Computing is a discipline aiming to abstract formal computing models, called membrane syst...
GPUs (Graphics Processing Unit) have been con- solidated as a massively data-parallel coprocessor t...
Abstract—Since CUDA programing model appeared on the general purpose computations, the developers ca...
International audienceThe model of membrane computing, also known under the name of P systems, is a ...
Software development for cellular computing is growing up yielding new applications. In this paper,...
AbstractP systems are inherently parallel and non-deterministic theoretical computing devices define...
Software development for Membrane Computing is growing up yielding new applications. Nowadays, the ...
In order to provide e cient software tools to deal with large membrane systems, high-throughput sim...
In order to validate P system models and to assist on their formal verification, simulators are ind...
In this paper we present a Spiking Neural P system (SNP system) simulator based on graphics process...
The acceleration of P system simulations is required increasingly, since they are at the core of mo...
AbstractMembrane computing is a theoretical model of computation that inspired from the structure an...
Motivation: Mathematical modelling is central to systems and synthetic biology. Using simulations to...
P systems are inherently parallel and non-deterministic theoretical computing devices defined inside...
Summary. We present in this paper our work regarding simulating a type of P sys-tem known as a spiki...
Membrane Computing is a discipline aiming to abstract formal computing models, called membrane syst...