Accelerated simulations of biological neural networks are in demand to discover the principals of biological learning. Novel many-core simulation platforms, e.g., SpiNNaker, BrainScaleS and Neurogrid, allow one to study neuron behavior in the brain at an accelerated rate, with a high level of detail. However, they do not come anywhere near simulating the human brain. The massive amount of spike communication has turned out to be a bottleneck. We specifically developed a network simulator to analyze in high detail the network loads and latencies caused by different network topologies and communication protocols in neuromorphic computing communication networks. This simulator allows simulating the impacts of heterogeneous neural networks and ...
The NEURON simulation environment has been extended to support parallel network simulations. Each pr...
The development of high-performance simulation software is crucial for studying the brain connectome...
Simulation is a third pillar next to experiment and theory in the study of complex dynamic systems s...
Accelerated simulations of biological neural networks are in demand to discover the principals of bi...
Simulations are a powerful tool to explore the design space of hardware systems, offering the flexib...
Neuromorphic computing systems have been introduced in the past few decades as a paradigm shift in c...
In this paper we present a new Partitioning and Placement methodology able to maps Spiking Neural Ne...
Simulation speed matters for neuroscientific research: this includes not only how quickly the simula...
© 2011 Jad Abi-SamraThe study of the structure and functionality of the brain has been ardently inve...
Simulation speed matters for neuroscientific research: this includes not only how fast the simulated...
In recent years, neural networks have seen increased interest from both the cognitive computing and ...
State-of-the-art software tools for neuronal network simulations scale to the largest computing syst...
In this paper we present a top-down methodology aimed at evaluating the scalability of Spiking Neura...
Modern computational neuroscience strives to develop complex network models to explain dynamics and ...
Today’s extremely scalable simulation technology for spiking neuronal networks enables the represent...
The NEURON simulation environment has been extended to support parallel network simulations. Each pr...
The development of high-performance simulation software is crucial for studying the brain connectome...
Simulation is a third pillar next to experiment and theory in the study of complex dynamic systems s...
Accelerated simulations of biological neural networks are in demand to discover the principals of bi...
Simulations are a powerful tool to explore the design space of hardware systems, offering the flexib...
Neuromorphic computing systems have been introduced in the past few decades as a paradigm shift in c...
In this paper we present a new Partitioning and Placement methodology able to maps Spiking Neural Ne...
Simulation speed matters for neuroscientific research: this includes not only how quickly the simula...
© 2011 Jad Abi-SamraThe study of the structure and functionality of the brain has been ardently inve...
Simulation speed matters for neuroscientific research: this includes not only how fast the simulated...
In recent years, neural networks have seen increased interest from both the cognitive computing and ...
State-of-the-art software tools for neuronal network simulations scale to the largest computing syst...
In this paper we present a top-down methodology aimed at evaluating the scalability of Spiking Neura...
Modern computational neuroscience strives to develop complex network models to explain dynamics and ...
Today’s extremely scalable simulation technology for spiking neuronal networks enables the represent...
The NEURON simulation environment has been extended to support parallel network simulations. Each pr...
The development of high-performance simulation software is crucial for studying the brain connectome...
Simulation is a third pillar next to experiment and theory in the study of complex dynamic systems s...