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Saturday, July 11
 

9:00am ADT

Multiscale modeling with MOOSE and Jardesigner
Saturday July 11, 2026 9:00am - 12:00pm ADT
MOOSE, the Multiscale Object-Oriented Simulation Environment (https://mooseneuro.org) is a system for modelling multiple scales in neuroscience, from biochemical pathways with reaction-diffusion systems to detailed biophysical models of single neurons and neuronal networks.

This tutorial will provide participants with a brief overview of MOOSE and its ecosystem. We will start with a walkthrough of MOOSE installation, then demonstrate how to write Python scripts to setup and simulate simple biochemical and biophysical models. Participants will also learn how to load models defined in standard formats like SBML and NeuroML into MOOSE, and explore, modify, and simulate them using Python.

Finally, the participants will see a demonstration of Jardesigner, a new browser-based graphical user interface for MOOSE that allows users to create multiscale models by putting together pre-built components, simulate them, and visualize the results with a few clicks.

Speakers
BP

Bhanu Priya Somashekar

Post-doc, National Centre for Biological Sciences
avatar for Upinder Singh Bhalla

Upinder Singh Bhalla

Professor, NCBS/TIFR
Multiscale modelling of neurons especially in synaptic plasticity: including chemical and electrical signaling, traffic and mechanical changes. Tool development for all of these, including GENESIS, MOOSE, FindSim and more.
Saturday July 11, 2026 9:00am - 12:00pm ADT
Room 505

1:00pm ADT

From single-cell modeling to large-scale network dynamics with NEST Simulator
Saturday July 11, 2026 1:00pm - 5:00pm ADT
For more details and materials related to this tutorial, please see the tutorial website: https://clinssen.github.io/NEST-workshop/

NEST is an established open-source simulator for spiking neuronal networks that combines detailed biological modeling with high performance and scalability from laptops to HPC systems [1], and has supported hundreds of studies, including a large-scale model of human cortex [2]. In two independent modules, this tutorial highlights NEST's support for compartmental neuron models and advanced synaptic plasticity.

Compartmental neuron models are a detailed way of describing biological neurons, capturing their spatially extended morphology as systems of coupled ordinary differential equations. We introduce the recently introduced compartmental modeling feature in NEST, starting with model construction in NESTML of biologically motivated multi-compartment neurons with active channels and synaptic inputs [4], and then create interacting networks composed of compartmental neuron populations. By explicitly constructing compartmental trees, participants gain transparent and fine-grained control over model structure. We will build a simple ion channel model in NESTML, and show how it can be compiled, rewritten, and extended, providing a concrete template for user-defined model development. The tutorial demonstrates dendritic computations emerging from explicitly constructed compartmental neurons and networks, and offers a practical entry point for developing custom compartmental models.

As an example of advanced plasticity rules in NEST, we present supervised eligibility propagation, an online, biologically inspired learning rule that approximates backpropagation through time [3]. We show how this rule can be used to train functional spiking neural networks to learn a range of tasks, from which we highlight the classification and generation of handwritten characters. The tutorial covers the full research workflow from model construction and simulation to data analysis. Participants can follow the material hands-on and interactively via the EBRAINS cloud services in the browser without local installation, and are encouraged to bring an existing EBRAINS account or create one in advance.

[1] https://nest-simulator.readthedocs.org/
[2] https://github.com/INM-6/microcircuit-PD14-model
[3] https://nest-simulator.readthedocs.io/en/latest/auto_examples/eprop_plasticity/index.html
[4] https://nestml.readthedocs.org/
Speakers
avatar for Agnes Korcsak-Gorzo

Agnes Korcsak-Gorzo

Researcher, Forschungszentrum Jülich GmbH
avatar for Charl Linssen

Charl Linssen

Jülich Research Centre, Germany
Saturday July 11, 2026 1:00pm - 5:00pm ADT
Room 505
 
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