From a47a6bb821c599b47bad9b28af16cd08b6e54866 Mon Sep 17 00:00:00 2001
From: Vecko <36369090+VeckoTheGecko@users.noreply.github.com>
Date: Tue, 28 Apr 2026 15:08:53 +0200
Subject: [PATCH 1/3] Update links to notebooks
---
docs/talks/index.md | 9 ++++-----
1 file changed, 4 insertions(+), 5 deletions(-)
diff --git a/docs/talks/index.md b/docs/talks/index.md
index 426b048..dcad0db 100644
--- a/docs/talks/index.md
+++ b/docs/talks/index.md
@@ -19,6 +19,7 @@ For completed talks, add them using the following format
[:octicons-video-16: Recording](link to video),
[:material-presentation-play: Slideshow](link to slides),
[:material-file-document: Supporting material](github_link to folder on main branch),
+[:material-download: Notebook Download](github_link_to_download)
[:material-file-document: Notebook](./python-tidbits.ipynb)
[:material-github: Discussion](github_link to issue/PR)
@@ -54,7 +55,7 @@ _Titles are placeholder._
### 2025-03-27 | "Python Tidbits: Small Python tips, tricks, and packages you wish you knew about yesterday" by Nick Hodgskin
-[:octicons-video-16: Recording](https://youtu.be/X-F0fFFW-wo),[:material-file-document: Notebook](./python-tidbits.ipynb), [:material-download: Notebook Download](https://github.com/UU-IMAU/python-for-lunch/blob/main/docs/talks/python-tidbits.ipynb), [:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/21)
+[:octicons-video-16: Recording](https://youtu.be/X-F0fFFW-wo), [:material-download: Notebook Download](https://github.com/UU-IMAU/python-for-lunch/blob/main/docs/talks/python-tidbits.ipynb), [:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/21)
**Abstract:** Sometimes the most impactful, timesaving features of a programming language are small tips, tricks, and patterns that you pick up along the way. When you finally come across them, you're left thinking "if only I knew about this earlier!". In this talk, we'll go through many of these lesser-known Python tricks - most of which are built directly into the Python language or standard library – to supercharge your Python skills. This talk will be fast paced covering a wide range of features, focusing on "tidbits" that can be explained in a few minutes each.
@@ -133,15 +134,13 @@ _Titles are placeholder._
**Abstract:** Many academic journals require research code to be available when you submit a manuscript to them. But how do you organise that? Where do you put the code in such a way that you can still make changes to it, and that it is also archived for the future? In this talk, I will show how you can combine GitHub with a Zenodo workflow to create a DOI on every Release of your code. We will also have time for a more general discussion on the opportunities and difficulties of publishing code with manuscripts.
-
-
### 2026-04-16 | "Data processing with CDO" by Oliver Mehling
+
[:octicons-video-16: Recording](https://youtu.be/qyImj5s58aw),
[:material-presentation-play: Slideshow](./assets/20260416%20-%20CDO/slides.pdf),
-[:material-file-document: Notebook](./assets/20260416%20-%20CDO/cdo-notebook.ipynb),
+[:material-download: Notebook Download](https://github.com/UU-IMAU/python-for-lunch/blob/main/docs/talks/assets/20260416%20-%20CDO/cdo-notebook.ipynb),
[:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/38)
-
**Abstract**: Climate Data Operators ([CDO](https://code.mpimet.mpg.de/projects/cdo)) is a versatile and fast (yet not too well-known) tool for processing gridded climate (model) data. In this talk, I’ll introduce CDO's powerful functionality for merging, averaging, regridding, etc. We’ll discuss the pros and cons compared to a purely xarray-based workflow, and explore ways to combine xarray and CDO, including the python-cdo package which provides an API to use CDO directly within Python.
### Archived talks
From f9cf84e065b885ec5e08c12c2f9ec7f89f434190 Mon Sep 17 00:00:00 2001
From: Vecko <36369090+VeckoTheGecko@users.noreply.github.com>
Date: Tue, 28 Apr 2026 15:10:32 +0200
Subject: [PATCH 2/3] Update icon links to one per line
---
docs/talks/index.md | 44 ++++++++++++++++++++++++++++++++++----------
1 file changed, 34 insertions(+), 10 deletions(-)
diff --git a/docs/talks/index.md b/docs/talks/index.md
index dcad0db..0fc0595 100644
--- a/docs/talks/index.md
+++ b/docs/talks/index.md
@@ -43,37 +43,51 @@ _Titles are placeholder._
### 2025-02-25 | "Git and GitHub: A time machine for every research project" by Nick Hodgskin
-[:octicons-video-16: Recording](https://youtu.be/QfojYVT01t0), [:material-presentation-play: Slideshow](./assets/20250220%20-%20Git%20and%20GitHub/index.html), [:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/11)
+[:octicons-video-16: Recording](https://youtu.be/QfojYVT01t0),
+[:material-presentation-play: Slideshow](./assets/20250220%20-%20Git%20and%20GitHub/index.html),
+[:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/11)
**Abstract:** Managing versions of a document is easy - just copy, paste, rename (often appending `_old` or `_draft1` to the end), and you're good to go. But what happens when your research involves dozens of inter-related scripts, datasets, and perhaps even collaborators? Suddenly the "copy paste" version management becomes a nightmare. How can we keep track of changes, prevent lost work, and confidently explore new ideas without fear of breaking everything? Enter Git, a version control system that acts like a time machine for your research. In this session, we’ll demystify Git, explaining its core concepts - commits, branches, and repositories - and show how it can be used by independent researchers as well as large teams. We’ll also introduce GitHub - a powerful platform for sharing, reviewing, and archiving research code. The talk is based off the highly polished "Version Control with Git" course from Software Carpentry.
### 2025-03-06 | "Data Science Template: Go from zero to hero with a fully initialised template research project (with sensible defaults) in a minute" by Franka Jesse
-[:octicons-video-16: Recording](https://youtu.be/Og9Wrppp_yg), [:material-presentation-play: Slideshow](./assets/20250306%20-%20CCDS/DataScienceTemplate-6March25.pdf), [:material-file-document: CCDS Documentation](https://cookiecutter-data-science.drivendata.org/), [:material-folder: Showcase Example](https://github.com/UU-IMAU/python-for-lunch/blob/main/docs/talks/assets/20250306%20-%20CCDS/project_icesheetmelt), [:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/13)
+[:octicons-video-16: Recording](https://youtu.be/Og9Wrppp_yg),
+[:material-presentation-play: Slideshow](./assets/20250306%20-%20CCDS/DataScienceTemplate-6March25.pdf),
+[:material-file-document: CCDS Documentation](https://cookiecutter-data-science.drivendata.org/),
+[:material-folder: Showcase Example](https://github.com/UU-IMAU/python-for-lunch/blob/main/docs/talks/assets/20250306%20-%20CCDS/project_icesheetmelt),
+[:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/13)
**Abstract:** We've all been there – eager to start a new research project, only to end up with a chaotic mess of notebooks like 'final_data_analysis_REALLY_FINAL_version6.ipynb' and data files scattered across our desktop like digital confetti. Fear not! In this lunch talk, I will introduce the "Cookie Cutter Data Science" template (CCDS for short) from Data Driven. It's a quick and painless way to set up your research project in under a minute—with a logical folder structure, sensible defaults, and zero regrets. We will also cover how to integrate it with Git for better version control (and fewer "final" versions). Whether you're handling climate model outputs, wrestling with observational data, or training a machine learning model, this template will save you from future headaches - and impress your collaborators with your beautifully organized project.
### 2025-03-27 | "Python Tidbits: Small Python tips, tricks, and packages you wish you knew about yesterday" by Nick Hodgskin
-[:octicons-video-16: Recording](https://youtu.be/X-F0fFFW-wo), [:material-download: Notebook Download](https://github.com/UU-IMAU/python-for-lunch/blob/main/docs/talks/python-tidbits.ipynb), [:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/21)
+[:octicons-video-16: Recording](https://youtu.be/X-F0fFFW-wo),
+[:material-download: Notebook Download](https://github.com/UU-IMAU/python-for-lunch/blob/main/docs/talks/python-tidbits.ipynb),
+[:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/21)
**Abstract:** Sometimes the most impactful, timesaving features of a programming language are small tips, tricks, and patterns that you pick up along the way. When you finally come across them, you're left thinking "if only I knew about this earlier!". In this talk, we'll go through many of these lesser-known Python tricks - most of which are built directly into the Python language or standard library – to supercharge your Python skills. This talk will be fast paced covering a wide range of features, focusing on "tidbits" that can be explained in a few minutes each.
### 2025-04-17 | "Conda Environments: A tool for reproducible, collaborative, and portable research" by Nick Hodgskin
-[:octicons-video-16: Recording](https://youtu.be/KV0zTx_n3o0), [:material-presentation-play: Slideshow](./assets/20250417%20-%20Conda/index.html), [:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/26)
+[:octicons-video-16: Recording](https://youtu.be/KV0zTx_n3o0),
+[:material-presentation-play: Slideshow](./assets/20250417%20-%20Conda/index.html),
+[:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/26)
**Abstract:** Every research project has different requirements. In software this comes in the form of different software dependencies. As we get involved with different research projects, we must manage these different (perhaps conflicting) dependencies - which can be an absolute nightmare if you don't have the right tools! In this talk we go over Conda environments which allow us to isolate dependencies so that we can work in isolated sandboxes for each of our projects. We can easily share these environments, whether it be with collaborators, with readers of your article, or if you want the same environment on your machine and on HPC. Conda environments are one of the key parts of reproducible research. At the end of this talk we also take a brief look at Pixi, a modern alternative to Conda environments which is picking up steam.
### 2025-05-15 | "VS Code: Your All-in-One Scientific Coding Environment" by Willem Kroese
-[:octicons-video-16: Recording](https://youtu.be/YRGjb4fEidg), [:material-presentation-play: Slideshow](./assets/20250515%20-%20VSCode/slides.pdf), [:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/29)
+[:octicons-video-16: Recording](https://youtu.be/YRGjb4fEidg),
+[:material-presentation-play: Slideshow](./assets/20250515%20-%20VSCode/slides.pdf),
+[:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/29)
**Abstract:** As scientists, our projects span multiple languages, diverse config/data files, notebooks, local scripting and cloud or cluster work. In this hands-on workshop you’ll discover how Visual Studio Code brings all these workflows under one roof. We’ll kick off with a quick tour of VS Code’s core features (command palette, terminal, workspace management), then dive into essential settings and extensions. You’ll pick up time-saving tips & shortcuts (multi-cursor edits, snippets, Zen Mode), get a peek at remote development over SSH, and watch GitHub Copilot assist your coding with suggestions. Finally, as a real-world bonus, I’ll show you how I turned VS Code into my local LaTeX editor. By the end, you’ll have a personalized toolkit of settings, extensions, and workflows to supercharge your VS Code experience. Bring your laptop if you want to follow along!
### 2025-06-12 | "A Roadmap to the Pangeo Ecosystem" by Nick Hodgskin
-[:octicons-video-16: Recording](https://youtu.be/iPh3KxxcAjA), [:material-presentation-play: Slideshow](./assets/20250612%20-%20Pangeo%20Roadmap/index.html), [:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/34)
+[:octicons-video-16: Recording](https://youtu.be/iPh3KxxcAjA),
+[:material-presentation-play: Slideshow](./assets/20250612%20-%20Pangeo%20Roadmap/index.html),
+[:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/34)
**Abstract:** We've all heard the name Pangeo - at a conference, or as a mention from the documentation of one of our tools - but what is it? Why are many climate scientists excited about it? It this talk we explore the Pangeo community and the ecosystem of packages it provides, going over its core mission and why it's needed in the next era of climate science where working with "big data" is becoming the norm. In this talk will give you a roadmap of the different packages and resources available in the Pangeo ecosystem - so that you can identify useful tools to investigate for your workflows and use-cases.
@@ -85,25 +99,35 @@ _Titles are placeholder._
### 2025-09-18 | "Programming in Julia: Tools for Dynamical Systems and Climate" by Reyk Börner
-[:octicons-video-16: Recording](https://youtu.be/zGWr6hVwUQg), [:material-presentation-play: Slideshow](./assets/20250918%20-%20Julia/slides.pdf), [:material-github: GitHub Repo](https://github.com/reykboerner/juliaforlunch), [:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/27)
+[:octicons-video-16: Recording](https://youtu.be/zGWr6hVwUQg),
+[:material-presentation-play: Slideshow](./assets/20250918%20-%20Julia/slides.pdf),
+[:material-github: GitHub Repo](https://github.com/reykboerner/juliaforlunch),
+[:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/27)
**Abstract:** As a climate scientist, chances are you’re working with some model written in Fortran and analysing data using Python. While Fortran is fast but a bit clunky, Python’s simplicity can come at the cost of running slowly. Julia, an increasingly popular programming language, seeks to offer the best of both worlds by combining speed with an intuitive, Python-like syntax. In this seminar, I’ll share my experience with co-developing my first Julia package (CriticalTransitions.jl) as someone who used to write messy Python scripts. We’ll explore the basic use, pros and cons, and what functionality is out there for dynamical systems analysis and climate modelling.
### 2025-11-13 | "Taming the Scheduler: Primer and Good Practices for Slurm on HPC Systems" by Lucas Esclapez
-[:material-github: Repo with Jupyter Notebook](https://github.com/Timh37/python4lunch_cmip6gc), [:octicons-video-16: Recording](https://youtu.be/TzG8FlcSoDA), [:material-presentation-play: Slideshow](./assets/20251113%20-%20SLURM/slides.pdf), [:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/30)
+[:material-github: Repo with Jupyter Notebook](https://github.com/Timh37/python4lunch_cmip6gc),
+[:octicons-video-16: Recording](https://youtu.be/TzG8FlcSoDA),
+[:material-presentation-play: Slideshow](./assets/20251113%20-%20SLURM/slides.pdf),
+[:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/30)
**Abstract:** State-of-the-art climate research increasingly depends on high-performance computing (HPC) platforms to process large datasets and to run simulations of ever more complex models. Unlike personal computers, HPC systems provide a shared pool of computational resources accessed by many users simultaneously. Efficient and fair use of these resources is managed by a scheduler — a key component that can be both powerful and, for new users, somewhat opaque or frustrating. In this talk, I will introduce Slurm, one of the most widely used workload managers in the HPC community. I will explain how Slurm allocates resources, manages jobs, and maintains system efficiency. The session will also cover good practices for submitting, monitoring jobs and optimizing resource usage.
### 2025-01-22 | "Xarray on HPC and in the cloud: Working with CMIP6 data" by Tim Herman
-[:octicons-video-16: Recording](https://youtu.be/6msZRQ48qZo), [:material-presentation-play: Slideshow](./assets/20260122%20-%20Xarray-cloud/slides.pdf), [:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/47)
+[:octicons-video-16: Recording](https://youtu.be/6msZRQ48qZo),
+[:material-presentation-play: Slideshow](./assets/20260122%20-%20Xarray-cloud/slides.pdf),
+[:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/47)
**Abstract:** The simulations of global climate models participating in CMIP6 provide a wealth of information but are challenging to analyse due to the wide variety of models and conventions and the large volume of data, especially when looking at higher resolution simulations or multiple simulation variants per model. Traditional workflows involve locally downloading CMIP6 data from ESGF servers or analysing data directly at those servers. With the introduction of CMIP6 data on Google Cloud, faster and more transparent cloud-based analyses are now also possible. Packages like xmip help analysing the data across models with different conventions in a structured way. In the In this talk I will explain the advantages of using cloud-based CMIP6 data and run you through a basic but neat demo workflow, based on examples available in the Pangeo Gallery and my own experiences.
### 2026-02-05 | "Xarray Series Part 1: Fundamentals of Xarray" by Nick Hodgskin
-[:octicons-video-16: Recording](https://youtu.be/Q5VDvxb33dM), [:material-presentation-play: Slideshow](./assets/20260205%20-%20Xarray-pt-1/slides.pdf), [:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/31)
+[:octicons-video-16: Recording](https://youtu.be/Q5VDvxb33dM),
+[:material-presentation-play: Slideshow](./assets/20260205%20-%20Xarray-pt-1/slides.pdf),
+[:material-github: Discussion](https://github.com/UU-IMAU/python-for-lunch/issues/31)
**Abstract:** In the first instalment of this series, we follow the amazing Pythia Foundations online resource to learn the fundamentals of Xarray in the context of the geosciences. By the end of this talk, you will know the basic data structures in Xarray, be able to inspect DataArray and Dataset objects, as well as read and write netCDF files. Most importantly - this talk will start to show how Xarray based workflows can greatly simplify analysis and data processing of multidimensional climate data. There is no required pre-requisite knowledge to attend this talk. Whether you're an experienced Python user, or new to Python - everyone is welcome.
From 18a0c2442e962c20f8b2d26fc7abe4287c77e017 Mon Sep 17 00:00:00 2001
From: Vecko <36369090+VeckoTheGecko@users.noreply.github.com>
Date: Tue, 28 Apr 2026 15:10:40 +0200
Subject: [PATCH 3/3] pre-commit
---
archived/PFL_14_Numpy/Non-SIMD_cpu_diagram1.svg | 2 +-
archived/PFL_14_Numpy/SIMD_cpu_diagram1.svg | 2 +-
2 files changed, 2 insertions(+), 2 deletions(-)
diff --git a/archived/PFL_14_Numpy/Non-SIMD_cpu_diagram1.svg b/archived/PFL_14_Numpy/Non-SIMD_cpu_diagram1.svg
index ed52f20..bbb09b4 100644
--- a/archived/PFL_14_Numpy/Non-SIMD_cpu_diagram1.svg
+++ b/archived/PFL_14_Numpy/Non-SIMD_cpu_diagram1.svg
@@ -1 +1 @@
-
\ No newline at end of file
+
diff --git a/archived/PFL_14_Numpy/SIMD_cpu_diagram1.svg b/archived/PFL_14_Numpy/SIMD_cpu_diagram1.svg
index ed37537..154b676 100644
--- a/archived/PFL_14_Numpy/SIMD_cpu_diagram1.svg
+++ b/archived/PFL_14_Numpy/SIMD_cpu_diagram1.svg
@@ -1 +1 @@
-
\ No newline at end of file
+