Summary

• Page properties (2 modified, 0 added, 0 removed)

Details

Page properties

Title

...	...	@@ -1,1 +1,1 @@
1		-Swedish Node: NEST Tutorials
	1	+EBRAINS Swedish Node Workshop 2025: NEST Tutorials

Content

...	...	@@ -2,9 +2,9 @@
2	2	(((
3	3	(% class="container" %)
4	4	(((
5		-= From single-cell modeling to large-scale network dynamics with NEST Simulator =
	5	+= NEST Tutorials =
6	6
7		-NEST Tutorials for EBRAINS Swedish Node
	7	+EBRAINS Swedish Node, Stockholm, 25/08/25 - 27/08/25
8	8	)))
9	9	)))
10	10
...	...	@@ -12,28 +12,48 @@
12	12	(((
13	13	(% class="col-xs-12 col-sm-8" %)
14	14	(((
15		-(% class="wikigeneratedid" %)
16		-**Instructor**: Sebastian Spreizer, PhD  University of Trier and Research Center Jülich
	15	+== From single-cell modeling to large-scale network dynamics with NEST Simulator ==
17	17
	17	+**Instructor**: Sebastian Spreizer, PhD, University of Trier and Research Center Jülich
18	18
19		-(% class="wikigeneratedid" id="HWhatcanIfindhere3F" %)
20		-NEST is an established, open-source simulator for spiking neuronal networks, which can capture a high degree of detail of biological network structures while retaining high performance and scalability from laptops to HPC [1]. This tutorial offers hands-on experience in building and simulating neuron, synapse, and network models. It introduces several tools and front-ends to implement modeling ideas most effectively. Participants do not have to install software as all tools are accessible via the cloud.
	19	+- [[Abstract>>url:https://wiki.ebrains.eu/bin/view/Collabs/swedish-node-nest-tutorials/About/]]
21	21
22		-First, we look at NEST Desktop [2], a web-based graphical user interface (GUI), which allows the exploration of essential concepts in computational neuroscience without the need to learn a programming language. This advances both the quality and speed of teaching in computational neuroscience. To get acquainted with the GUI, we will create and analyze a balanced two-population network.
23	23
24		-The tutorial will then turn to Jupyter (Python) notebooks where we will start by creating a spiking network. Here, we learn advanced steps to write code with NEST Simulation syntax. The scripting codes allow us to explore sophisticated use cases with NEST simulations. I will let the audience pick one or few of the provided examples, e.g. large scale networks, networks of spatial neurons or using plasticity [3].
	22	+The tutorial is composed of three parts in which the user learns to simulate with NEST step by step.
25	25
26		-The last part is using NESTML to create custom neuron and synapse models for NEST Simulator. A functional plasticity rule will then be introduced into the balanced E/I network to implement a biologically realistic version of reinforcement learning. This will be done by formulating the learning model in the NESTML language syntax, and using the associated toolchain to generate code for NEST [4].
27	27
28		-[1] [[https:~~/~~/nest-simulator.readthedocs.org/>>https://nest-simulator.readthedocs.org/]]
29		-[2] [[https:~~/~~/nest-desktop.readthedocs.org/>>https://nest-desktop.readthedocs.org/]]
30		-[3] [[https:~~/~~/nest-simulator.readthedocs.io/en/latest/examples/index.html>>https://nest-simulator.readthedocs.io/en/latest/examples/index.html]]
31		-[4] [[https:~~/~~/nestml.readthedocs.org/>>https://nestml.readthedocs.org/]]
	25	+=== Time schedule ===
32	32
	27	+|(% style="width:84px" %)9 - 11|(% style="width:235px" %)NEST Desktop|(% style="width:541px" %)[[https:~~/~~/nest-desktop.readthedocs.org/>>https://nest-desktop.readthedocs.org/]]
	28	+|(% style="width:84px" %)12 - 15|(% style="width:235px" %)NEST Simulator|(% style="width:541px" %)[[https:~~/~~/nest-simulator.readthedocs.org/>>https://nest-simulator.readthedocs.org/]]
	29	+|(% style="width:84px" %)15 - 18|(% style="width:235px" %)NESTML|(% style="width:541px" %)[[https:~~/~~/nestml.readthedocs.org/>>https://nestml.readthedocs.org/]]
33	33
34		-**Requirements**: Laptop with access to Internet. An account on EBRAINS would be optimal, otherwise I will create guest accounts for participants.
	31	+=== ===
35	35
36		-**Target audience**: Students and researchers who are interesting in computational neuroscience
	33	+=== 1) NEST Desktop ===
	34	+
	35	+The first part of the tutorial, we look at NEST Desktop.  As a goal we will create and analyze a balanced two-population network.
	36	+
	37	+* [[https:~~/~~/wiki.ebrains.eu/bin/view/Collabs/nest-desktop>>https://wiki.ebrains.eu/bin/view/Collabs/nest-desktop]]
	38	+
	39	+
	40	+=== 2) NEST Simulator ===
	41	+
	42	+The tutorial will then turn to Jupyter (Python) notebooks where we will start by creating a spiking neurons. Here, we learn advanced steps to write code with NEST Simulation syntax. The scripting codes allow us to customize sophisticated use cases with NEST simulations. Examples are:
	43	+
	44	+* neuronal dynamics
	45	+* large scale networks,
	46	+* networks of spatial neurons
	47	+* using plasticity
	48	+
	49	+
	50	+=== 3) NESTML ===
	51	+
	52	+The last part is using NESTML to create custom neuron and synapse models for NEST Simulator. A functional plasticity rule will then be introduced into the balanced E/I network to implement a biologically realistic version of reinforcement learning. This will be done by formulating the learning model in the NESTML language syntax, and using the associated toolchain to generate code for NEST [4].
	53	+
	54	+* [[https:~~/~~/wiki.ebrains.eu/bin/view/Collabs/nestml-tutorials>>https://wiki.ebrains.eu/bin/view/Collabs/nestml-tutorials]]
	55	+
	56	+
37	37	)))
38	38
39	39