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Running a retrospective
Paul Mucur edited this page Oct 19, 2018
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We no longer use this rubric but please feel free to use if it helps facilitate better meetings.
At the end of every meeting, we should take at least 10 minutes to discuss how the meeting went so we can improve the club.
- What went well during this meeting?
- What didn't go so well during this meeting?
- What do we want to change for next time?
- Are there any changes bigger than an individual meeting we want to make (e.g. meeting formats, book, schedule, etc.)?
- Who volunteers to organise the next meeting?
- Direct the volunteer to assign themselves to the latest "Organise next meeting" issue on GitHub and follow the checklist described there
- Home
- Documentation
- Choosing a Topic
- Shows & Tells
- Miscellaneous
- Opt Art
- Reinforcement Learning: An Introduction
- 10 Technical Papers Every Programmer Should Read (At Least Twice)
- 7 More Languages in 7 Weeks
- Lua, Day 1: The Call to Adventure
- Lua, Day 2: Tables All the Way Down
- Lua, Day 3
- Factor, Day 1: Stack On, Stack Off
- Factor, Day 2: Painting the Fence
- Factor, Day 3: Balancing on a Boat
- Elm, Day 1: Handling the Basics
- Elm, Day 2: The Elm Architecture
- Elm, Day 3: The Elm Architecture
- Elixir, Day 1: Laying a Great Foundation
- Elixir, Day 2: Controlling Mutations
- Elixir, Day 3: Spawning and Respawning
- Julia, Day 1: Resistance Is Futile
- Julia, Day 2: Getting Assimilated
- Julia, Day 3: Become One With Julia
- Minikanren, Days 1-3
- Minikanren, Einstein's Puzzle
- Idris Days 1-2
- Types and Programming Languages
- Chapter 1: Introduction
- Chapter 2: Mathematical Preliminaries
- Chapter 3: Untyped Arithmetic Expressions
- Chapter 4: An ML Implementation of Arithmetic Expressions
- Chapter 5: The Untyped Lambda-Calculus
- Chapters 6 & 7: De Bruijn Indices and an ML Implementation of the Lambda-Calculus
- Chapter 8: Typed Arithmetic Expressions
- Chapter 9: The Simply-Typed Lambda Calculus
- Chapter 10: An ML Implementation of Simple Types
- Chapter 11: Simple Extensions
- Chapter 11 Redux: Simple Extensions
- Chapter 13: References
- Chapter 14: Exceptions
- Chapter 15: Subtyping – Part 1
- Chapter 15: Subtyping – Part 2
- Chapter 16: The Metatheory of Subtyping
- Chapter 16: Implementation
- Chapter 18: Case Study: Imperative Objects
- Chapter 19: Case Study: Featherweight Java
- The New Turing Omnibus
- Errata
- Chapter 11: Search Trees
- Chapter 8: Random Numbers
- Chapter 35: Sequential Sorting
- Chapter 58: Predicate Calculus
- Chapter 27: Perceptrons
- Chapter 9: Mathematical Research
- Chapter 16: Genetic Algorithms
- Chapter 37: Public Key Cryptography
- Chapter 6: Game Trees
- Chapter 5: Gödel's Theorem
- Chapter 34: Satisfiability (also featuring: Sentient)
- Chapter 44: Cellular Automata
- Chapter 47: Storing Images
- Chapter 12: Error-Correcting Codes
- Chapter 32: The Fast Fourier Transform
- Chapter 36: Neural Networks That Learn
- Chapter 41: NP-Completeness
- Chapter 55: Iteration and Recursion
- Chapter 19: Computer Vision
- Chapter 61: Searching Strings
- Chapter 66: Church's Thesis
- Chapter 52: Text Compression
- Chapter 22: Minimum spanning tree
- Chapter 64: Logic Programming
- Chapter 60: Computer Viruses
- Show & Tell
- Elements of Computing Systems
- Archived pages