Add to ORKGCurrent parallel simulation algorithms for Spiking Neural P (SNP) systems are based on a matrix representation. This helps to harness the inherent parallelism in algebraic operations, such as vector-matrix multiplication. Although it has been convenient for the rst parallel simulators running on Graphics Processing Units (GPUs), such as CuSNP, there are some bottlenecks to cope with. For example, matrix representation of SNP systems with a low-connectivity-degree graph lead to sparse matrices, i.e. containing more zeros than actual values. Having to deal with sparse matrices downgrades the performance of the simulators because of wasting memory and time. However, sparse matrices is a known problem on parallel computing with GPUs, ...
e understanding of the structural and dynamic complexity of neural networks is greatly facilitated b...
© 2011 Jad Abi-SamraThe study of the structure and functionality of the brain has been ardently inve...
The arrival of graphics processing (GPU) cards suitable for massively parallel computing promises a↵...
To date, parallel simulation algorithms for spiking neural P (SNP) systems are based on a matrix re...
In this work we present further extensions and improvements of a Spiking Neural P system (for short...
We present in this paper our work regarding simulating a type of P sys- tem known as a spiking neur...
Spiking Neural P (SNP) systems, variants of Psystems (under Membrane and Natural computing), are com...
Spiking neural P systems (in short, SN P systems) are parallel models of computations inspired by t...
Summary. We present in this paper our work regarding simulating a type of P sys-tem known as a spiki...
Abstract(#br)In this paper, we create a matrix representation for spiking neural P systems with stru...
In this paper we present a Spiking Neural P system (SNP system) simulator based on graphics process...
In this paper we present our results in adapting a Spiking Neural P system (SNP system) simulator t...
Spiking neural P systems (SN P systems, for short) are a class of distributed parallel computing de...
In the 2010, matrix representation of SN P system without delay was presented while in the case of S...
e understanding of the structural and dynamic complexity of neural networks is greatly facilitated b...
e understanding of the structural and dynamic complexity of neural networks is greatly facilitated b...
© 2011 Jad Abi-SamraThe study of the structure and functionality of the brain has been ardently inve...
The arrival of graphics processing (GPU) cards suitable for massively parallel computing promises a↵...
To date, parallel simulation algorithms for spiking neural P (SNP) systems are based on a matrix re...
In this work we present further extensions and improvements of a Spiking Neural P system (for short...
We present in this paper our work regarding simulating a type of P sys- tem known as a spiking neur...
Spiking Neural P (SNP) systems, variants of Psystems (under Membrane and Natural computing), are com...
Spiking neural P systems (in short, SN P systems) are parallel models of computations inspired by t...
Summary. We present in this paper our work regarding simulating a type of P sys-tem known as a spiki...
Abstract(#br)In this paper, we create a matrix representation for spiking neural P systems with stru...
In this paper we present a Spiking Neural P system (SNP system) simulator based on graphics process...
In this paper we present our results in adapting a Spiking Neural P system (SNP system) simulator t...
Spiking neural P systems (SN P systems, for short) are a class of distributed parallel computing de...
In the 2010, matrix representation of SN P system without delay was presented while in the case of S...
e understanding of the structural and dynamic complexity of neural networks is greatly facilitated b...
e understanding of the structural and dynamic complexity of neural networks is greatly facilitated b...
© 2011 Jad Abi-SamraThe study of the structure and functionality of the brain has been ardently inve...
The arrival of graphics processing (GPU) cards suitable for massively parallel computing promises a↵...