While neuromorphic systems may be the ultimate platform for deploying spiking neural networks (SNNs), their distributed nature and optimization for specific types of models makes them unwieldy tools for developing them. Instead, SNN models tend to be developed and simulated on computers or clusters of computers with standard von Neumann CPU architectures. Over the last decade, as well as becoming a common fixture in many workstations, NVIDIA GPU accelerators have entered the High Performance Computing field and are now used in 50 % of the Top 10 super computing sites worldwide. In this paper we use our GeNN code generator to re-implement two neo-cortex-inspired, circuit-scale, point neuron network models on GPU hardware. We verify the corre...
Detailed brain modeling has been presenting significant challenges to the world of high-performance ...
Over the past decade there has been a growing interest in the development of parallel hardware syste...
In this paper we present our results in adapting a Spiking Neural P system (SNP system) simulator t...
While neuromorphic systems may be the ultimate platform for deploying spiking neural networks (SNNs)...
Simulation speed matters for neuroscientific research: this includes not only how quickly the simula...
Copyright © 2016 Diamond, Nowotny and Schmuker. This is an open-access article distributed under the...
There has been a strong interest in modeling a mammalian brain in order to study the architectural a...
The arrival of graphics processing (GPU) cards suitable for massively parallel computing promises a↵...
Efficient simulation of large-scale spiking neuronal networks is important for neuroscientific resea...
Animal brains still outperform even the most performant machines with significantly lower speed. Non...
Taking inspiration from machine learning libraries - where techniques such as parallel batch trainin...
Simulation speed matters for neuroscientific research: this includes not only how fast the simulated...
“Brian” is a popular Python-based simulator for spiking neural networks, commonly used in computatio...
Simulation speed matters for neuroscientific research: this includes not only how quickly the simula...
work [1,2] was introduced in 2011 to facilitate the efficient use of graphical processing units (GPU...
Detailed brain modeling has been presenting significant challenges to the world of high-performance ...
Over the past decade there has been a growing interest in the development of parallel hardware syste...
In this paper we present our results in adapting a Spiking Neural P system (SNP system) simulator t...
While neuromorphic systems may be the ultimate platform for deploying spiking neural networks (SNNs)...
Simulation speed matters for neuroscientific research: this includes not only how quickly the simula...
Copyright © 2016 Diamond, Nowotny and Schmuker. This is an open-access article distributed under the...
There has been a strong interest in modeling a mammalian brain in order to study the architectural a...
The arrival of graphics processing (GPU) cards suitable for massively parallel computing promises a↵...
Efficient simulation of large-scale spiking neuronal networks is important for neuroscientific resea...
Animal brains still outperform even the most performant machines with significantly lower speed. Non...
Taking inspiration from machine learning libraries - where techniques such as parallel batch trainin...
Simulation speed matters for neuroscientific research: this includes not only how fast the simulated...
“Brian” is a popular Python-based simulator for spiking neural networks, commonly used in computatio...
Simulation speed matters for neuroscientific research: this includes not only how quickly the simula...
work [1,2] was introduced in 2011 to facilitate the efficient use of graphical processing units (GPU...
Detailed brain modeling has been presenting significant challenges to the world of high-performance ...
Over the past decade there has been a growing interest in the development of parallel hardware syste...
In this paper we present our results in adapting a Spiking Neural P system (SNP system) simulator t...