# | Title | Journal | Year | Citations |
---|
1 | Matplotlib: A 2D Graphics Environment | Computing in Science and Engineering | 2007 | 21,475 |
2 | The NumPy Array: A Structure for Efficient Numerical Computation | Computing in Science and Engineering | 2011 | 7,797 |
3 | IPython: A System for Interactive Scientific Computing | Computing in Science and Engineering | 2007 | 2,952 |
4 | XSEDE: Accelerating Scientific Discovery | Computing in Science and Engineering | 2014 | 2,790 |
5 | Python for Scientific Computing | Computing in Science and Engineering | 2007 | 2,607 |
6 | Transport in Protein Crystals, Part I: Insights from Molecular Simulations | Computing in Science and Engineering | 2007 | 1,312 |
7 | On the Evaluation of Finite Hilbert Transforms | Computing in Science and Engineering | 2007 | 1,274 |
8 | An object-oriented scripting interface to a legacy electronic structure code | Computing in Science and Engineering | 2002 | 1,117 |
9 | OpenCL: A Parallel Programming Standard for Heterogeneous Computing Systems | Computing in Science and Engineering | 2010 | 959 |
10 | Python for Scientists and Engineers | Computing in Science and Engineering | 2011 | 771 |
11 | Cython: The Best of Both Worlds | Computing in Science and Engineering | 2011 | 745 |
12 | OpenSees: A Framework for Earthquake Engineering Simulation | Computing in Science and Engineering | 2011 | 735 |
13 | Being Sensitive to Uncertainty | Computing in Science and Engineering | 2007 | 617 |
14 | Mayavi: 3D Visualization of Scientific Data | Computing in Science and Engineering | 2011 | 512 |
15 | The End of Moore's Law: A New Beginning for Information Technology | Computing in Science and Engineering | 2017 | 481 |
16 | The architecture of the earth system modeling framework | Computing in Science and Engineering | 2004 | 358 |
17 | Provenance for Computational Tasks: A Survey | Computing in Science and Engineering | 2008 | 335 |
18 | Graph Twiddling in a MapReduce World | Computing in Science and Engineering | 2009 | 317 |
19 | FiPy: Partial Differential Equations with Python | Computing in Science and Engineering | 2009 | 298 |
20 | SETI@home-massively distributed computing for SETI | Computing in Science and Engineering | 2001 | 280 |
21 | Cloud-Based Software Platform for Big Data Analytics in Smart Grids | Computing in Science and Engineering | 2013 | 249 |
22 | A computational framework for simulating and analyzing human and animal movement | Computing in Science and Engineering | 2000 | 238 |
23 | OpenPNM: A Pore Network Modeling Package | Computing in Science and Engineering | 2016 | 235 |
24 | Seismic denoising with nonuniformly sampled curvelets | Computing in Science and Engineering | 2006 | 217 |
25 | HUBzero: A Platform for Dissemination and Collaboration in Computational Science and Engineering | Computing in Science and Engineering | 2010 | 214 |
26 | Zoltan data management services for parallel dynamic applications | Computing in Science and Engineering | 2002 | 199 |
27 | Guest Editors Introduction to the top 10 algorithms | Computing in Science and Engineering | 2000 | 197 |
28 | OOF: an image-based finite-element analysis of material microstructures | Computing in Science and Engineering | 2001 | 197 |
29 | OpenMM: A Hardware-Independent Framework for Molecular Simulations | Computing in Science and Engineering | 2010 | 195 |
30 | PaRSEC: Exploiting Heterogeneity to Enhance Scalability | Computing in Science and Engineering | 2013 | 192 |
31 | Reproducible Research in Computational Harmonic Analysis | Computing in Science and Engineering | 2009 | 189 |
32 | What Is the Blockchain? | Computing in Science and Engineering | 2017 | 178 |
33 | Automatic Lip-Contour Extraction and Mouth-Structure Segmentation in Images | Computing in Science and Engineering | 2011 | 174 |
34 | Graphical Processing Units for Quantum Chemistry | Computing in Science and Engineering | 2008 | 169 |
35 | The what, how, and why of wavelet shrinkage denoising | Computing in Science and Engineering | 2000 | 168 |
36 | Beyond Moore's Law: the interconnect era | Computing in Science and Engineering | 2003 | 167 |
37 | Modeling the global Internet | Computing in Science and Engineering | 1999 | 164 |
38 | nanoHUB.org: Advancing Education and Research in Nanotechnology | Computing in Science and Engineering | 2008 | 163 |
39 | Making scientific computations reproducible | Computing in Science and Engineering | 2000 | 160 |
40 | Python: An Ecosystem for Scientific Computing | Computing in Science and Engineering | 2011 | 158 |
41 | Stochastic Computational Fluid Mechanics | Computing in Science and Engineering | 2007 | 155 |
42 | An introduction to algebraic multigrid | Computing in Science and Engineering | 2006 | 154 |
43 | The Computational Materials Repository | Computing in Science and Engineering | 2012 | 153 |
44 | MRICloud: Delivering High-Throughput MRI Neuroinformatics as Cloud-Based Software as a Service | Computing in Science and Engineering | 2016 | 148 |
45 | SciDB: A Database Management System for Applications with Complex Analytics | Computing in Science and Engineering | 2013 | 137 |
46 | What's Next? [The end of Moore's law] | Computing in Science and Engineering | 2017 | 136 |
47 | The Evolution of Computing: AlphaGo | Computing in Science and Engineering | 2016 | 131 |
48 | The Legal Framework for Reproducible Scientific Research: Licensing and Copyright | Computing in Science and Engineering | 2009 | 126 |
49 | Defining and Measuring Success in Online Citizen Science: A Case Study of Zooniverse Projects | Computing in Science and Engineering | 2015 | 120 |
50 | The Metropolis Algorithm | Computing in Science and Engineering | 2000 | 111 |