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Neural Latent State and Dynamics Inference Workshop

Neural recordings are high-dimensional and complex. We aim to find spatiotemporal structure in data in order to "understand" it better, but what is the right kind of structure to look for? In this workshop, we will introduce the statistical problem of inferring latent state trajectories from high-dimensional neural time series and how it is related to dimensionality reduction methods such as principal component analysis (PCA). Subsequently, we will introduce the statistically more difficult, but theoretically more satisfying inference of the latent nonlinear dynamical system. There will be hands-on components to try some of the methods.

Schedule: 11 October 2022

  • 13:30-13:45 Conda/python/code installation
  • 13:45-14:30 Lecture 1: Latent state trajectories and dimensionality reduction
  • 14:30-15:15 Hands-on 1: dimensionality reduction
  • 15:15-15:45 Lecture 2: Latent neural dynamics theory and algorithms
  • 15:45-16:15 Hands-on 2: inferring latent dynamics
  • 16:15-16:30 Summary and discussions

Conda installation

For installation of conda follow the instructions here: https://docs.conda.io/projects/conda/en/latest/user-guide/install/index.html#

Git installation (for Windows)

Windows users would need to install and work in the Git BASH terminal. For installing git, see: https://git-scm.com/downloads


Code setup:

  1. Clone or download this repo.

  2. Make a conda environment using the requirements.txt with

    • For Linux and MacOS use conda env create -f env.yml
    • For Windows use conda env create -f env_windows.yml and then
      GPU: pip install jax==0.3.13 https://whls.blob.core.windows.net/unstable/cuda111/jaxlib-0.3.7+cuda11.cudnn82-cp39-none-win_amd64.whl
      or
      CPU: pip install "jax[cpu]===0.3.14" -f https://whls.blob.core.windows.net/unstable/index.html --use-deprecated legacy-resolver
      and finally pip install git+https://github.com/yuanz271/vlgpax.git
  3. Activate the conda environment using conda activate lvmworkshop

Datasets

We will be focusing on two datasets – a toy dataset of spiking data with low dimensional dynamics governed by a Van der Pol Oscillator and electrophysiological recordings from the motor cortex (M1) and dorsal premotor cortex (PMd) of a monkey during a delayed reaching task.

Van der Pol Oscillator

  • To setup this dataset move to the code pack folder using cd code_pack/ then run python generate_vdp_data.py

Monkey reaching task

  • No action required. Included in the github.com repo.

Starting Jupyter Notebook or JupyterLab

Start Jupyter Notebook by typing jupyter notebook or JupyterLab by typing jupyter lab


Contributors

  • Matt Dowling
  • Tushar Arora
  • Ayesha Vermani
  • Abel Sagodi

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Exercises and examples for the latent dynamics workshop

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  • Jupyter Notebook 64.8%
  • Python 35.2%