2021

Sapienza Università di Roma

Computational Neuroscience Course

Websites/Web Apps

EBRAINS
EBRAINS Interactive Workflows for Cellular Level Modeling
NeuroFeatureExtract (NFE)
Hodgkin-Huxley Neuron Builder (HHNB)


Software Tools

Electrophys Feature Extraction Library (eFEL)
Blue Brain Python Optimization Library (BluePyOpt)


Datasets

NFE .abf files and metadata


Example models

CA1_int_bAC_011017HP2_20170510120000.zip


Synaptic Plasticity Jupyter Notebook Workflow

  1. 1. Enter "wiki.ebrains.eu"
  2. 2. Click on "Collabs" on the top menu
  3. 3. Create a Collab via the "Create a collab" button
  4. 4. Set it as a private collab
  5. 5. Click on "Lab" in the left menu
  6. 6. Click on "Open in lab" on the right
  7. 7. Select the first option (Fenix CH ...). If a second window opens up, select the first option
  8. 8. Click on "File -> New Launcher"
  9. 9. Click on "Terminal"
  10. 10. Write "cd shared/NAME_OF_YOUR_COLLAB" and press Enter
  11. 11. Write "mkdir CLS-INTERACTIVE-UC" and press Enter
  12. 12. Write "mkdir CLS-INTERACTIVE-MODELS" and press Enter
  13. 13. Write "cd CLS-INTERACTIVE-UC" and press Enter
  14. 14. Write "git clone https://github.com/ebrains-cls-interactive/Synaptic_Plasticity.git" and press Enter
  15. 15. Write "cd ../CLS-INTERACTIVE-MODELS" and press Enter
  16. 16. Write "wget https://object.cscs.ch:443/v1/AUTH_c0a333ecf7c045809321ce9d9ecdfdea/web-resources-bsp/data/2021-course-sapienza/models.json" and press Enter
  17. 17. Write "cd ../CLS-INTERACTIVE-UC" and press Enter
  18. 18. Click on "CLS-INTERACTIVE-UC" in the left menu
  19. 19. Click on "Synaptic_Plasticity" in the left menu
  20. 20. Click twice on "Synaptic plasticity.ipynb"