Difference between revisions of "Jupyter"
Jump to navigation
Jump to search
(Created page with " = Jupyter notebook as development ennvironment for MicroPython = This explains how to configure a local Jupyter Notebook to develop MicroPython code on an ESP32 or ESP8266 d...") |
|||
Line 15: | Line 15: | ||
* have as first command to the connection to serial port | * have as first command to the connection to serial port | ||
* program the board directly in the notebook, see the output (including sensor streams) directly in the notebook | * program the board directly in the notebook, see the output (including sensor streams) directly in the notebook | ||
+ | |||
== Web pages and Tutorials == | == Web pages and Tutorials == | ||
* https://towardsdatascience.com/micropython-on-esp-using-jupyter-6f366ff5ed9 | * https://towardsdatascience.com/micropython-on-esp-using-jupyter-6f366ff5ed9 | ||
+ | |||
+ | |||
+ | [File:Jupyter01.PNG] |
Revision as of 16:26, 28 March 2024
Jupyter notebook as development ennvironment for MicroPython
This explains how to configure a local Jupyter Notebook to develop MicroPython code on an ESP32 or ESP8266 device.
Steps to set it ip
In this example we use the Arduino Nano Connect RP2040.
The basic steps are
- install Python on your computer (or update to the latest version)
- install Jupyter Notebooks on your computer locally
- add the Kernal that allows you to connect to the Board via USB/REPL
- connect the device physically to the computer
- have as first command to the connection to serial port
- program the board directly in the notebook, see the output (including sensor streams) directly in the notebook
Web pages and Tutorials
[File:Jupyter01.PNG]