AbstractThe human brain is a complex biological neural network characterised by high degrees of connectivity among neurons. Any system designed to simulate large-scale spiking neuronal networks needs to support such connectivity and the associated communication traffic in the form of spike events. This paper investigates how best to generate multicast routes for SpiNNaker, a purpose-built, low-power, massively-parallel architecture. The discussed algorithms are an essential ingredient for the efficient operation of SpiNNaker since generating multicast routes is known to be an NP-complete problem. In fact, multicast communications have been extensively studied in the literature, but we found no existing algorithm adaptable to SpiNNaker. The ...
Multicast is a collective communication method in which a message is sent from a source to an arbitr...
Abstract—This paper demonstrates the feasibility and eval-uates the performance of using the SpiNNak...
Abstract—The modelling of large systems of spiking neurons is computationally very demanding in term...
AbstractThe human brain is a complex biological neural network characterised by high degrees of conn...
Abstract—SpiNNaker is a custom-made architecture designed to model large-scale spiking neural nets. ...
Abstract—SpiNNaker is a hardware-based massively-parallel real-time universal neural network simulat...
Abstract — SpiNNaker is a massively-parallel neuromorphic computing architecture designed to model v...
The design of a new high-performance computing platform to model biological neural networks requires...
In many multicomputer applications is it necessary for one node to send an identical message to many...
Abstract—This paper presents the algorithm and software developed for parallel simulation of spiking...
The basic processing units in brain are neurons and synapses that are interconnected in a complex pa...
Abstract—This paper presents the algorithm and software developed for parallel simulation of spiking...
Multicasting is an information dissemination problem which consists, for a processor of a distribute...
Abstract—Progress in VLSI technologies is enabling the inte-gration of large numbers of spiking neur...
Simulating large spiking neural networks (SNN) with a high level ofrealism in a field programmable g...
Multicast is a collective communication method in which a message is sent from a source to an arbitr...
Abstract—This paper demonstrates the feasibility and eval-uates the performance of using the SpiNNak...
Abstract—The modelling of large systems of spiking neurons is computationally very demanding in term...
AbstractThe human brain is a complex biological neural network characterised by high degrees of conn...
Abstract—SpiNNaker is a custom-made architecture designed to model large-scale spiking neural nets. ...
Abstract—SpiNNaker is a hardware-based massively-parallel real-time universal neural network simulat...
Abstract — SpiNNaker is a massively-parallel neuromorphic computing architecture designed to model v...
The design of a new high-performance computing platform to model biological neural networks requires...
In many multicomputer applications is it necessary for one node to send an identical message to many...
Abstract—This paper presents the algorithm and software developed for parallel simulation of spiking...
The basic processing units in brain are neurons and synapses that are interconnected in a complex pa...
Abstract—This paper presents the algorithm and software developed for parallel simulation of spiking...
Multicasting is an information dissemination problem which consists, for a processor of a distribute...
Abstract—Progress in VLSI technologies is enabling the inte-gration of large numbers of spiking neur...
Simulating large spiking neural networks (SNN) with a high level ofrealism in a field programmable g...
Multicast is a collective communication method in which a message is sent from a source to an arbitr...
Abstract—This paper demonstrates the feasibility and eval-uates the performance of using the SpiNNak...
Abstract—The modelling of large systems of spiking neurons is computationally very demanding in term...