Lectures related to HPC Infrastructure: Blue Brain Project

Scientific Computing in Neuroscience

Explores the history and tools of scientific computing in neuroscience, emphasizing the simulation of neurons and networks.

Brain Simulation Platform: SimUI Tutorial

Covers a tutorial on simulating a hippocampus microcircuit using the user-friendly SimUI.

Network Simulation: Spontaneous Activity and Validation

Covers spontaneous brain network activity, neural simulation, and validation, emphasizing the importance of in-vitro and in-vivo conditions for accurate network modeling.

Free Piston Simulation

Demonstrates the simulation of a free piston system using COMSOL Multiphysics software.

Computational Neuroscience: Biophysics & Modeling

Covers the fundamentals of computational neuroscience, focusing on biophysics and modeling.

Challenge of even bigger models

Explores simulating large-scale neural network models and optimizing memory efficiency in neural simulations using NEURON and CoreNEURON.

In Silico Neuroscience: Data Reproducibility and Reusability

Emphasizes data reproducibility and reusability in in silico neuroscience, focusing on neuroinformatics tools and methods.

Biological Scope and Computational Simulation

Explores connecting biological scope with computational simulation methods and discusses various simulation environments for modeling neural activity.

Blue Brain: Neocortical Microcircuitry

Covers the Blue Brain project's history, neocortical microcircuitry, neuron morphologies, and ion channel behavior.

Network Simulation and Activity Dynamics

Explores neural network simulation, activity dynamics, and validation processes to ensure accurate predictions.

Heat Transfer in Falling Ring Simulation

Explores heat transfer in a falling ring simulation, emphasizing thermal conduction and exchange with the surrounding liquid.

Configuring your synapse to realistic biological ranges

Covers configuring synapses to realistic biological ranges and visualizing NMDA conductance dependencies.

Modeling Neuronal Activity

Explores modeling neuronal activity, including firing rates, responses to stimuli, and network behavior.

Approaches and Rationale of Simulation Neuroscience

Explores the overview, rationale, and strategies of simulation neuroscience, emphasizing the challenges of reconstructing and simulating the brain.

Simulation: Control of Dynamic Systems

Explores simulation of common structures and control of dynamic systems through friction and elasticity constants.

Why study human neuronal microcircuits

Explores the significance of studying human neuronal microcircuits and their correlation with brain size and cognitive abilities.

Brain Visualization: Raytracing

Presents brain visualization using Raytracing technology and covers loading circuits and interpreting results.

Neural Signals and Signal Processing: Modeling and Simulation

Covers the fundamentals of neural signals and signal processing, focusing on modeling and simulation of neural systems.

Neuronal Dynamics: Random Networks

Explores the dynamics of neuronal populations, emphasizing random networks and mean-field arguments for connectivity.

Form and Function of Complex Systems

Delves into the form and function of complex systems, emphasizing the interplay between 'mass' and 'transport networks' in various systems.