Arbor

• A simple single cell model (beginner)
• A detailed single cell model (advanced)
• A detailed single cell recipe (advanced)
• A ring network (advanced)
• A simple dendrite (advanced)
• A simple single cell recipe (advanced)
• A single cell model from the Allen Brain Atlas (advanced)
• A single cell model from the BluePyOpt Cell Optimisation Library (advanced)
• Distributed ring network (MPI) (advanced)
• Extracellular signals (LFPykit) (advanced)
• GPU and profiling (advanced)
• Spike Timing-dependent Plasticity Curve (advanced)
• Two cells connected via a gap junction (advanced)

Electrophysiology Analysis Toolkit

• Statistics of spike trains (beginner)
• ASSET: Analysis of Sequences of Synchronous Events in Massively Parallel Spike Trains (advanced)
• Gaussian Process Factor Analysis (advanced)
• Parallel (advanced)
• Spike Pattern Detection and Evaluation (SPADE) (advanced)
• The Unitary Events Analysis (advanced)
• Time-domain Granger Causality (advanced)

NEST

• Introduction to NEST: Simulating a single neuron (beginner)
• Neurons and simple neural networks (beginner)
• Populations of neurons (beginner)
• Connect two NEST simulations using MUSIC (advanced)
• Connecting networks with synapses (advanced)
• Introduction to the MUSIC Interface (advanced)
• MUSIC Connections in C++ and Python (advanced)
• MUSIC with SLI (advanced)
• Practical tips (advanced)
• Spatially structured networks (advanced)
• The pymusic interface (advanced)

PyNN

• Building and simulating a simple model (beginner)
• Installing PyNN on a Linux system (beginner)

The Virtual Brain

• Building Your Own Brain Network Model (beginner)
• Getting Started (beginner)
• My first simulation with The Virtual Brain (beginner)
• Population Models in The Virtual Brain (TVB) and the Phase Plane (beginner)
• Brain stimulation in The Virtual Brain (advanced)
• Clinical Applications - Stroke Recovery & Dementia (advanced)
• Evoked Responses in the Visual Cortex (advanced)
• Exploring a model (advanced)
• Hands-On: Modeling stroke brain (advanced)
• Human Brain Project (HBP) TVB-NEST co-simulation (advanced)
• Import Virtual Brain ready data into TVB and create a brain model (advanced)
• Integrated workflows: Image processing pipeline (advanced)
• Modeling brain dynamics in brain tumor patients using The Virtual Brain (advanced)
• Modeling Epilepsy (advanced)
• Modelling Epilepsy with The Virtual Brain (advanced)
• Region simulation tutorial (advanced)
• Resting State Networks (advanced)
• Simulating The Virtual Mouse Brain (TVMB) (advanced)
• Simulating The Virtual Mouse Brain (TVMB) (Copy) (advanced)
• Surface simulation tutorial (advanced)
• Surface-based simulations and deep brain stimulations (advanced)
• The Bayesian Virtual Epileptic Patient (BVEP) (advanced)
• TVB to NEST multi-scale simulation (advanced)

VoluBA

• Anchoring partial volumetric data to BigBrain using VoluBA (-)