Jupyter Notebooks–a publishing format for reproducible computational workflows T Kluyver, B Ragan-Kelley, F Pérez, B Granger, M Bussonnier, J Frederic, ... Positioning and power in academic publishing: Players, agents and agendas, 87-90, 2016 | 4903* | 2016 |
Binder 2.0-Reproducible, interactive, sharable environments for science at scale B Ragan-Kelley, C Willing, F Akici, D Lippa, D Niederhut, M Pacer Proceedings of the 17th python in science conference, 113-120, 2018 | 195 | 2018 |
Project Jupyter: Computational narratives as the engine of collaborative data science F Perez, BE Granger Retrieved September 11 (207), 108, 2015 | 159 | 2015 |
Using Jupyter for reproducible scientific workflows M Beg, J Taka, T Kluyver, A Konovalov, M Ragan-Kelley, NM Thiéry, ... Computing in Science & Engineering 23 (2), 36-46, 2021 | 105 | 2021 |
Jupyter development team T Kluyver, B Ragan-Kelley, F Pérez, B Granger, M Bussonnier, J Frederic, ... Jupyter Notebooks Publ format Reprod Comput Work ELPUB 2016, 87-90, 2016 | 83 | 2016 |
nbgrader: A tool for creating and grading assignments in the Jupyter Notebook DS Blank, D Bourgin, A Brown, M Bussonnier, J Frederic, B Granger, ... The Journal of Open Source Education 2 (11), 2019 | 44 | 2019 |
Collaborative cloud-enabled tools allow rapid, reproducible biological insights B Ragan-Kelley, WA Walters, D McDonald, J Riley, BE Granger, ... The ISME journal 7 (3), 461-464, 2013 | 31 | 2013 |
Two-dimensional axisymmetric Child–Langmuir scaling law B Ragan-Kelley, J Verboncoeur, Y Feng Physics of Plasmas 16 (10), 2009 | 29 | 2009 |
Reproducible research environments with repo2docker J Forde, T Head, C Holdgraf, Y Panda, G Nalvarete, B Ragan-Kelley, ... | 26 | 2018 |
Jupyter Notebooks–a publishing format for reproducible computational workflows. Positioning and Power in Academic Publishing: Players, Agents and Agendas (2016), 87–90. doi: 10 … T Kluyver, B Ragan-Kelley, F Pérez, B Granger, M Bussonnier, J Frederic, ... doi 10, 978-1, 0 | 24 | |
Modeling a thermionic energy converter using finite-difference time-domain particle-in-cell simulations FS Lo, PS Lu, B Ragan-Kelley, AJ Minnich, TH Lee, MC Lin, ... Physics of Plasmas 21 (2), 2014 | 14 | 2014 |
Explorations of space-charge limits in parallel-plate diodes and associated techniques for automation B Ragan-Kelley University of California, Berkeley, 2013 | 10 | 2013 |
Reproducing machine learning research on binder J Forde, M Bussonnier, FA Fortin, B Granger, T Head, C Holdgraf, ... | 7 | 2018 |
A relativistic self-consistent model for studying enhancement of space charge limited field emission due to counter-streaming ions MC Lin, PS Lu, PC Chang, B Ragan-Kelley, JP Verboncoeur Physics of Plasmas 21 (2), 2014 | 7 | 2014 |
DIscBIO: a user-friendly pipeline for biomarker discovery in single-cell transcriptomics S Ghannoum, W Leoncio Netto, D Fantini, B Ragan-Kelley, A Parizadeh, ... International journal of molecular sciences 22 (3), 1399, 2021 | 4 | 2021 |
Optimizing physical parameters in 1-D particle-in-cell simulations with Python B Ragan-Kelley, JP Verboncoeur, MC Lin Computer Physics Communications 185 (10), 2487-2494, 2014 | 4 | 2014 |
IPython: components for interactive and parallel computing across disciplines. F Perez, M Bussonnier, JD Frederic, BM Froehle, BE Granger, P Ivanov, ... AGU Fall Meeting Abstracts 2013, H51R-02, 2013 | 2 | 2013 |
Building a Metallic Graphene Transistor BL Ragan-Kelley, JR Williams, CM Friend, CM Marcus Harvard DEAS REU Program, 2005 | 1 | 2005 |
Particle Simulation on a GPU with PyCUDA M Ragan-Kelley | 1 | |
Chapter 3 Smittestopp Backend C Midoglu, B Ragan-Kelley, SA Reinemo, J Jahren, P Halvorsen Smittestopp− A Case Study on Digital Contact Tracing, 29-62, 2022 | | 2022 |