.md .pdf

By Author

Important

The 52 Chapters organized by Author (Last name, first name)

• Bentley, Martin

  • In Praise of Small Tools, or a short Ode to the CommandLine

  • Best Practices are not (always) the best approach

• Bingham, Austin

  • Domain-Driven Design in Geocomputing

• Bisbas, George

  • 5 Minute Intro to HPC

• Bond, Claire

  • Why use virtual outcrops?

• Bril, Bert

  • Turn data into colours

• Burnham, Brian

  • The Virtual Geoscience Revolution: From William Smith to Lidar

  • The Virtual Geoscience Revolution: Beyond Lidar – the democratization of Virtual Outcrops

• Caumon, Guillaume

  • Is Geology Cartesian?

• Cawood, Adam

  • Why use virtual outcrops?

• Cockett, Rowan

  • Building Technical Communication Tools

• De la Varga Hormazabal, Miguel

  • GemPy: 3D Structural Geomodeling in Python

• Dinneen, Chris

  • SEG-Y: Judging books by their covers

• Dramsch, Jesper

  • General purpose GPU programming

• Dunnington, Dewey

  • R, RStudio, and the tidyverse for Geocomputing

  • The grammar of graphics

• Ennen, Chris

  • Software, software, everywhere, but which ones should I choose?

• Fomel, Sergey

  • Reproducible Research

• Ganssle, Gram

  • Seismic Data Encryption

• Gosses, Justin

  • Standing on the Shoulders of the Guy in the UK Office

• Hale, Dave

  • My favourite 10-line program

• Hall, Matt

  • What’s so special about geoscience?

  • What is scientific computing?

• Howell, John

  • The Virtual Geoscience Revolution: From William Smith to Lidar

  • The Virtual Geoscience Revolution: Beyond Lidar – the democratization of Virtual Outcrops

• Kondrat, Darren

  • Getting started in Geocomputing can seem daunting but it doesn’t need to be!

• Larsen, Eirik

  • Crossplots on the boardroom table

• Leckenby, Rob

  • My name is bot, geobot

• Leeman, John

  • Hardware is hard: teaching geotech

• Levy, Bruno

  • Is Geology Cartesian?

• McNaughton, Neil

  • ‘Digitalization,’ from Harry Nyquist to the ‘edge’ of the internet

• Menger, Bill

  • The Steady Advance of Linux

  • Software Challenges in Oil and Gas

• Newton, Tyler

  • Human neural networks in geocomputing

• Niccoli, Matteo

  • Prototype colourmaps for fault interpretation

    • Sigmoid_function_experiments.ipynb

    • Sigmoid_app_static_new.ipynb

    • Scaling_seismic_sigmoid.ipynb

  • Keep on improving your geocomputing projects

    • 52-things_tutorial.ipynb

    • scipy_gaussian_kernel.ipynb

    • speed_up_convolution.ipynb

  • Some advice on reproducing figures

    • Interactive_parameter_exploration_exponential_function.ipynb

    • How_to_evaluate_and_compare_colormaps.ipynb

    • How_to_make_exponetial_grayscale.ipynb

• Niederau, Jan

  • Tailor your teaching with Jupyter Notebooks

• Ool, Didi

  • Simple Machine Learning: A Mini Tutorial

• Pethick, Andrew

  • The obsolete geoscientist

• Pisel, Jesse

  • Arm-wavers Anonymous

• Purves, Steve

  • Learn Javascript

• Pyrcz, Michael J

  • Open source geostatistical geomodelling

  • Machine Learning for Geological Modeling

• Richardson, Alan

  • Use standard, not specialized, file and problem formats

• Rogers, Steve

  • Some advice on reproducing figures

• Rusic, Alberto

  • I hate computers

  • I hate computers II

• Sabirin, Hassan

  • Quality Checking your Spatial Data

• Saltmann, Evan

  • Speeding things up

• Sasvari, Ágoston

  • The Pheonix

• Selvage, James

  • Serverless computing

• Steen, Drew

  • How to teach geoscience students to code

• Storey, Martin

  • De profundis: of well depth

• Thurmond, John

  • Overcoming the tyranny of formats

• Wellmann, Florian

  • A Geological Model is a Single Hypothesis - of Many Possible Ones

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