SpikeNET: an Event-driven Simulation Package for Modelling Large Networks of Spiking Neurons

Overview

Journal Network

Publisher Informa Healthcare

Specialty Neurology

Date 2003 Dec 5

PMID 14653495

Citations 16

Authors

Arnaud Delorme

Simon J Thorpe

Affiliations

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Abstract

Many biological neural network models face the problem of scalability because of the limited computational power of today's computers. Thus, it is difficult to assess the efficiency of these models to solve complex problems such as image processing. Here, we describe how this problem can be tackled using event-driven computation. Only the neurons that emit a discharge are processed and, as long as the average spike discharge rate is low, millions of neurons and billions of connections can be modelled. We describe the underlying computation and implementation of such a mechanism in SpikeNET, our neural network simulation package. The type of model one can build is not only biologically compliant, it is also computationally efficient as 400 000 synaptic weights can be propagated per second on a standard desktop computer. In addition, for large networks, we can set very small time steps (< 0.01 ms) without significantly increasing the computation time. As an example, this method is applied to solve complex cognitive tasks such as face recognition in natural images.

Citing Articles

Spiking neural networks for predictive and explainable modelling of multimodal streaming data with a case study on financial time series and online news.

AbouHassan I, Kasabov N, Jagtap V, Kulkarni P Sci Rep. 2023; 13(1):18367.

PMID: 37884551 PMC: 10603166. DOI: 10.1038/s41598-023-42605-0.

Pre-Synaptic Pool Modification (PSPM): A supervised learning procedure for recurrent spiking neural networks.

Bagley B, Bordelon B, Moseley B, Wessel R PLoS One. 2020; 15(2):e0229083.

PMID: 32092107 PMC: 7039446. DOI: 10.1371/journal.pone.0229083.

Curated Model Development Using NEUROiD: A Web-Based NEUROmotor Integration and Design Platform.

Iyengar R, Pithapuram M, Singh A, Raghavan M Front Neuroinform. 2019; 13:56.

PMID: 31440153 PMC: 6693358. DOI: 10.3389/fninf.2019.00056.

MEAnalyzer - a Spike Train Analysis Tool for Multi Electrode Arrays.

Dastgheyb R, Yoo S, Haughey N Neuroinformatics. 2019; 18(1):163-179.

PMID: 31273627 DOI: 10.1007/s12021-019-09431-0.

Xolotl: An Intuitive and Approachable Neuron and Network Simulator for Research and Teaching.

Gorur-Shandilya S, Hoyland A, Marder E Front Neuroinform. 2018; 12:87.

PMID: 30534067 PMC: 6275287. DOI: 10.3389/fninf.2018.00087.