Brian is a free, open source simulator for spiking neural networks designed for ease of use, flexibility, and extensibility.
Brian 2 is a Python-based, open-source simulator designed for spiking neural networks. It allows users to define, run, and plot neural models using a straightforward syntax. Brian 2 leverages runtime code generation, automatically converting equations into low-level C++ code for efficient simulations. This simulator supports detailed biophysical models like Hodgkin-Huxley, as well as simplified models such as leaky integrate-and-fire neurons, offering the flexibility to implement custom synapse models. Brian 2 has been used in numerous modeling studies and is integrated into the computational neuroscience textbook 'Neuronal Dynamics'. It caters to researchers and students who require a reliable, accurate, and customizable tool for neural network simulations.
Brian 2 is a Python-based, open-source simulator designed for spiking neural networks.
Explore all tools that specialize in defining neural models using mathematical equations. This domain focus ensures Brian 2 delivers optimized results for this specific requirement.
Explore all tools that specialize in simulating the dynamics of spiking neural networks. This domain focus ensures Brian 2 delivers optimized results for this specific requirement.
Explore all tools that specialize in analyzing simulation results through plotting and visualization. This domain focus ensures Brian 2 delivers optimized results for this specific requirement.
Explore all tools that specialize in implementing custom neuron and synapse models. This domain focus ensures Brian 2 delivers optimized results for this specific requirement.
Explore all tools that specialize in generating efficient c++ code from model descriptions. This domain focus ensures Brian 2 delivers optimized results for this specific requirement.
Explore all tools that specialize in validating model behavior against experimental data. This domain focus ensures Brian 2 delivers optimized results for this specific requirement.
Automatically converts high-level model descriptions into optimized C++ code, improving simulation speed.
Detects and reports dimensionally inconsistent equations, preventing errors in model definitions.
Allows users to define neuron and synapse models using mathematical equations, including differential equations.
Designed to be easily extended with new features, models, and simulation methods.
Integrates physical units into the simulation, ensuring dimensional correctness and simplifying parameter management.
Install Python on your system (if not already installed).
Install Brian 2 using conda: `conda install -c conda-forge brian2` or pip: `pip install brian2`.
Consult the Beginners Guide on the Brian 2 website.
Work through the Tutorials provided in the documentation.
Explore the Examples to understand different modeling approaches.
Refer to the detailed Documentation for specific functionalities and advanced usage.
Join the Community Forum for support and discussions.
All Set
Ready to go
Verified feedback from other users.
"Brian 2 is recognized for its ease of use, flexibility in model specification, and efficient simulation performance due to runtime code generation."
0Post questions, share tips, and help other users.
High-performance molecular dynamics and electronic structure simulations for materials science.
The industry-standard Python library for high-performance molecular dynamics trajectory analysis.
High-performance, GPU-accelerated molecular dynamics simulation toolkit for biophysical modeling.
OQMD is a database of DFT calculated thermodynamic and structural properties of materials.
Rosetta Commons provides cutting-edge computational methods and shared software for biomolecular modeling and design, fostering open science and accelerating discovery through community collaboration.
Model, simulate, and analyze biochemical systems with a single tool.
Zod is a TypeScript-first schema validation library with static type inference.
ZenML is the AI Control Plane that unifies orchestration, versioning, and governance for machine learning and GenAI workflows.