tutorials:tutorial_2
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tutorials:tutorial_2 [2016/09/01 21:19] – [Visualizing the spikes] zenke | tutorials:tutorial_2 [2018/02/28 17:58] (current) – [Visualizing the spikes] Adds gnuplot code for spike raster zenke | ||
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Here you will learn to wire up a simple balanced network. | Here you will learn to wire up a simple balanced network. | ||
This assumes that you already know the basics explained in [[Tutorial 1]]. | This assumes that you already know the basics explained in [[Tutorial 1]]. | ||
+ | |||
+ | The code of this example can be found here | ||
+ | https:// | ||
+ | |||
===== Setting up neural populations ===== | ===== Setting up neural populations ===== | ||
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IFGroup * neurons_exc = new IFGroup(nb_exc_neurons); | IFGroup * neurons_exc = new IFGroup(nb_exc_neurons); | ||
neurons_exc-> | neurons_exc-> | ||
+ | neurons_exc-> | ||
IFGroup * neurons_inh = new IFGroup(nb_inh_neurons); | IFGroup * neurons_inh = new IFGroup(nb_inh_neurons); | ||
neurons_inh-> | neurons_inh-> | ||
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</ | </ | ||
- | The above code snipped initializes an excitatory population ('' | + | The above code snipped initializes an excitatory population ('' |
As before in [[Tutorial 1]] we define Poisson input as a separate population: | As before in [[Tutorial 1]] we define Poisson input as a separate population: | ||
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</ | </ | ||
- | ==== Connecting the network ==== | + | ===== Connecting the network |
Now let's connect these three populations. First the input: | Now let's connect these three populations. First the input: | ||
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Note that we made inhibitory connections stronger by a factor of '' | Note that we made inhibitory connections stronger by a factor of '' | ||
- | ==== Set up monitors ==== | + | ===== Set up monitors |
Let's record spikes from all neurons and the membrane potential from neuron 0 in the excitatory population. | Let's record spikes from all neurons and the membrane potential from neuron 0 in the excitatory population. | ||
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- | ==== Running the simulation ==== | + | ===== Running the simulation |
To run the simulation for 10 seconds we simply add the run command: | To run the simulation for 10 seconds we simply add the run command: | ||
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- | ===== Visualizing the spikes ===== | + | ====== Visualizing the spikes |
Running above code will generate the following files: | Running above code will generate the following files: | ||
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</ | </ | ||
- | Let's take a look at the spikes (in the [[manual: | + | Let's take a look at the spikes (in the [[manual: |
+ | < | ||
+ | set xrange [2:5] | ||
+ | set yrange [:5000] | ||
+ | plot ' | ||
+ | </ | ||
{{ : | {{ : | ||
That's a lot of spikes, but the image suggests that there is some synchrony going on at times, but there are also phases of asynchronous firing. Let's zoom in a bit more: | That's a lot of spikes, but the image suggests that there is some synchrony going on at times, but there are also phases of asynchronous firing. Let's zoom in a bit more: | ||
{{ : | {{ : | ||
+ | |||
+ | We can also analyze this a little more and plot for instance the distribution of firing rates: | ||
+ | {{ : | ||
Now let's have a look the membrane trace we recorded from one of our cells: | Now let's have a look the membrane trace we recorded from one of our cells: | ||
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{{ : | {{ : | ||
- | For more sophisticated ways of writing patterns into a connectivity matrix, check out the documentation of [[manual: | + | For more sophisticated ways of writing patterns |
+ | You can also always load a weight matrix from an external file which have generated using MATLAB or Python. Auryn supports a coordinate based [[http:// | ||
+ | |||
+ | |||
+ | In the next [[Tutorial 3|tutorial]] we will make this model plastic. | ||
====== Exercises ====== | ====== Exercises ====== |
tutorials/tutorial_2.txt · Last modified: 2018/02/28 17:58 by zenke