examples:start
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examples:start [2017/10/11 20:37] – [Published work using Auryn] zenke | examples:start [2017/11/23 09:52] – Changes structure zenke | ||
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Starting from Auryn v0.7.0, examples are compiled automatically when building the simulator. See [[manual: | Starting from Auryn v0.7.0, examples are compiled automatically when building the simulator. See [[manual: | ||
+ | ===== Example code included with Auryn ===== | ||
- | ==== Simple | + | The following |
- | These are very simple | + | ==== Basic examples ==== |
+ | |||
+ | These are very simple models | ||
* [[sim_poisson]] This example is //Hello world// in Auryn. It shows you how to create a simple [[manual: | * [[sim_poisson]] This example is //Hello world// in Auryn. It shows you how to create a simple [[manual: | ||
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- | ==== Example code which comes with Auryn | + | ==== Network simulations |
- | These examples | + | Here a few more common network simulation |
* [[sim_coba_benchmark]] The Vogels and Abbott network [1] in its 4000 neuron conductance based synapses version as used in [7,8]. | * [[sim_coba_benchmark]] The Vogels and Abbott network [1] in its 4000 neuron conductance based synapses version as used in [7,8]. | ||
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===== Published work using Auryn ===== | ===== Published work using Auryn ===== | ||
- | The code for these works can be found in separate repositories, | + | The code for these works can be found in separate repositories, |
- | * Neftci, E., Augustine, C., Paul, S., and Detorakis, G. (2016). Neuromorphic Deep Learning Machines. arXiv:1612.05596 [Cs]. [[https:// | + | * Zenke, F., and Ganguli, S. (2017). SuperSpike: Supervised learning in multi-layer spiking neural networks. ArXiv:1705.11146 [Cs, q-Bio, Stat]. [[https:// |
* Zenke, F., and Gerstner, W. (2017). Hebbian plasticity requires compensatory processes on multiple timescales. Phil. Trans. R. Soc. B 372, 20160259. [[http:// | * Zenke, F., and Gerstner, W. (2017). Hebbian plasticity requires compensatory processes on multiple timescales. Phil. Trans. R. Soc. B 372, 20160259. [[http:// | ||
+ | * Neftci, E., Augustine, C., Paul, S., and Detorakis, G. (2016). Neuromorphic Deep Learning Machines. arXiv: | ||
* Neftci, E.O., Pedroni, B.U., Joshi, S., Al-Shedivat, | * Neftci, E.O., Pedroni, B.U., Joshi, S., Al-Shedivat, | ||
* Zenke, F., Agnes, E.J., and Gerstner, W. (2015). Diverse synaptic plasticity mechanisms orchestrated to form and retrieve memories in spiking neural networks. [[http:// | * Zenke, F., Agnes, E.J., and Gerstner, W. (2015). Diverse synaptic plasticity mechanisms orchestrated to form and retrieve memories in spiking neural networks. [[http:// | ||
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- | ==== Bibliography ==== | + | ===== Bibliography |
[1] Vogels, T.P., Abbott, L.F., 2005. Signal propagation and logic gating in networks of integrate-and-fire neurons. J Neurosci 25, 10786. | [1] Vogels, T.P., Abbott, L.F., 2005. Signal propagation and logic gating in networks of integrate-and-fire neurons. J Neurosci 25, 10786. |
examples/start.txt · Last modified: 2018/06/03 13:05 by zenke