Solar, Stellar and Space Physics with Machine Learning Workshop

UniSQ

May 2-3, 2024

08:30-16:30 AEST

Instructors: Paul Hancock

Helpers: helper one

General Information

The Carpentries project comprises the Software Carpentry, Data Carpentry, and Library Carpentry communities of Instructors, Trainers, Maintainers, helpers, and supporters who share a mission to teach foundational computational and data science skills to researchers.

Want to learn more and stay engaged with The Carpentries? Carpentries Clippings is The Carpentries' biweekly newsletter, where we share community news, community job postings, and more. Sign up to receive future editions and read our full archive: https://carpentries.org/newsletter/

Data Carpentry develops and teaches workshops on the fundamental data skills needed to conduct research. Its target audience is researchers who have little to no prior computational experience, and its lessons are domain specific, building on learners' existing knowledge to enable them to quickly apply skills learned to their own research. Participants will be encouraged to help one another and to apply what they have learned to their own research problems.

For more information on what we teach and why, please see our paper "Good Enough Practices for Scientific Computing".

Who: This lesson assumes you have a working knowledge of Python and some previous exposure to the Bash shell. These requirements can be fulfilled by: a) completing a Software Carpentry Python workshop or b) completing a Data Carpentry Ecology workshop (with Python) and a Data Carpentry Genomics workshop or c) independent exposure to both Python and the Bash shell. If you’re unsure whether you have enough experience to participate in this workshop, please read over this detailed list, which gives all of the functions, operators, and other concepts you will need to be familiar with. In addition, this lesson assumes that learners have some familiarity with astronomical concepts, including reference frames, proper motion, color-magnitude diagrams, globular clusters, and isochrones. Participants should bring their own laptops and plan to participate actively.

Where: UniSQ Toowoomba, 487-535 West St, Darling Heights QLD 4350. Get directions with OpenStreetMap or Google Maps.

When: May 2-3, 2024. Add to your Google Calendar.

Requirements: Participants must bring a laptop with a Mac, Linux, or Windows operating system (not a tablet, Chromebook, etc.) that they have administrative privileges on. They should have a few specific software packages installed (listed below).

Accessibility: We are committed to making this workshop accessible to everybody. For workshops at a physical location, the workshop organizers have checked that:

The room is wheelchair / scooter accessible.
Accessible restrooms are available.

Materials will be provided in advance of the workshop and large-print handouts are available if needed by notifying the organizers in advance. If we can help making learning easier for you (e.g. sign-language interpreters, lactation facilities) please get in touch (using contact details below) and we will attempt to provide them.

Contact: Please email paul.hancock@curtin.edu.au for more information.

Roles: To learn more about the roles at the workshop (who will be doing what), refer to our Workshop FAQ.

Code of Conduct

Everyone who participates in Carpentries activities is required to conform to the Code of Conduct. This document also outlines how to report an incident if needed.

Collaborative Notes

We will use this collaborative document for chatting, taking notes, and sharing URLs and bits of code.

Surveys

Please be sure to complete this survey after the workshop.

Post-workshop Survey

Schedule

Thursday 2nd May

09:15	Setup
09:30	Overview
09:45	Building an expert system
10:30	Morning Tea
10:50	Building an expert system
12:00	Lunch

Firday 3rd May

10:10	Time series forecasting
11:10	Morning Tea
11:30	Time series forecasting
13:00	Finish
After workshop	Post-workshop survey

Setup

To participate in a Data Carpentry workshop, you will need access to software as described below. In addition, you will need an up-to-date web browser.

We maintain a list of common issues that occur during installation as a reference for instructors that may be useful on the Configuration Problems and Solutions wiki page.

Python

Python is a popular language for research computing, and great for general-purpose programming as well. Installing all of its research packages individually can be a bit difficult, so we recommend Anaconda, an all-in-one installer.

Regardless of how you choose to install it, please make sure you install Python version 3.x (e.g., 3.6 is fine).

We will teach Python using the Jupyter Notebook, a programming environment that runs in a web browser (Jupyter Notebook will be installed by Anaconda). For this to work you will need a reasonably up-to-date browser. The current versions of the Chrome, Safari and Firefox browsers are all supported (some older browsers, including Internet Explorer version 9 and below, are not).

Open https://www.anaconda.com/products/individual#download-section with your web browser.
Download the Anaconda for Windows installer with Python 3. (If you are not sure which version to choose, you probably want the 64-bit Graphical Installer Anaconda3-...-Windows-x86_64.exe)
Install Python 3 by running the Anaconda Installer, using all of the defaults for installation except make sure to check Add Anaconda to my PATH environment variable.

Video Tutorial

Open https://www.anaconda.com/products/individual#download-section with your web browser.
Download the Anaconda Installer with Python 3 for macOS (you can either use the Graphical or the Command Line Installer).
Install Python 3 by running the Anaconda Installer using all of the defaults for installation.

Video Tutorial

Open https://www.anaconda.com/products/individual#download-section with your web browser.
Download the Anaconda Installer with Python 3 for Linux.
(The installation requires using the shell. If you aren't comfortable doing the installation yourself stop here and request help at the workshop.)
Open a terminal window and navigate to the directory where the executable is downloaded (e.g., `cd ~/Downloads`).
Type
```
bash Anaconda3-
```
and then press Tab to autocomplete the full file name. The name of file you just downloaded should appear.
Press Enter (or Return depending on your keyboard). You will follow the text-only prompts. To move through the text, press Spacebar. Type yes and press enter to approve the license. Press Enter (or Return) to approve the default location for the files. Type yes and press Enter (or Return) to prepend Anaconda to your PATH (this makes the Anaconda distribution the default Python).
Close the terminal window.

The Bash Shell

Bash is a commonly-used shell that gives you the power to do tasks more quickly.

Download the Git for Windows installer.
Run the installer and follow the steps below:
1. Click on "Next" four times (two times if you've previously installed Git). You don't need to change anything in the Information, location, components, and start menu screens.
2. From the dropdown menu, "Choosing the default editor used by Git", select "Use the Nano editor by default" (NOTE: you will need to scroll up to find it) and click on "Next".
3. On the page that says "Adjusting the name of the initial branch in new repositories", ensure that "Let Git decide" is selected. This will ensure the highest level of compatibility for our lessons.
4. Ensure that "Git from the command line and also from 3rd-party software" is selected and click on "Next". (If you don't do this Git Bash will not work properly, requiring you to remove the Git Bash installation, re-run the installer and to select the "Git from the command line and also from 3rd-party software" option.)
5. Select "Use bundled OpenSSH".
6. Ensure that "Use the native Windows Secure Channel Library" is selected and click on "Next".
7. Ensure that "Checkout Windows-style, commit Unix-style line endings" is selected and click on "Next".
8. Ensure that "Use Windows' default console window" is selected and click on "Next".
9. Ensure that "Default (fast-forward or merge) is selected and click "Next"
10. Ensure that "Git Credential Manager" is selected and click on "Next".
11. Ensure that "Enable file system caching" is selected and click on "Next".
12. Click on "Install".
13. Click on "Finish" or "Next".
If your "HOME" environment variable is not set (or you don't know what this is):
1. Open command prompt (Open Start Menu then type cmd and press Enter)
2. Type the following line into the command prompt window exactly as shown:
  setx HOME "%USERPROFILE%"
3. Press Enter, you should see SUCCESS: Specified value was saved.
4. Quit command prompt by typing exit then pressing Enter

This will provide you with both Git and Bash in the Git Bash program.

Video Tutorial

The default shell in Mac OS X Ventura and newer versions is Zsh, but Bash is available in all versions, so no need to install anything. You access Bash from the Terminal (found in /Applications/Utilities). See the Git installation video tutorial for an example on how to open the Terminal. You may want to keep Terminal in your dock for this workshop.

To see if your default shell is Bash type echo $SHELL in Terminal and press the Return key. If the message printed does not end with '/bash' then your default is something else, you can change your current shell to Bash by typing bash and then pressing Return. To check your current shell type echo $0 and press Return.

To change your default shell to Bash type chsh -s /bin/bash and press the Return key, then reboot for the change to take effect. To change your default back to Zsh, type chsh -s /bin/zsh, press the Return key and reboot. To check available shells, type cat /etc/shells.

Video Tutorial

The default shell is usually Bash and there is usually no need to install anything.