IPython: a system for interactive scientific computing. IPython provides a rich architecture for interactive computing with: A powerful interactive shell. A kernel for Jupyter. Support for interactive data visualization and use of GUI toolkits. Flexible, embeddable interpreters to load into your own projects. Easy to use, high performance tools for parallel computing.

References in zbMATH (referenced in 77 articles )

Showing results 41 to 60 of 77.
Sorted by year (citations)
  1. Filimonov, V.; Demos, G.; Sornette, D.: Modified profile likelihood inference and interval forecast of the burst of financial bubbles (2017)
  2. Hauseux, Paul; Hale, Jack S.; Bordas, Stéphane P. A.: Accelerating Monte Carlo estimation with derivatives of high-level finite element models (2017)
  3. Merten, Lukas; Tjus, Julia Becker; Fichtner, Horst; Eichmann, Björn; Sigl, Günter: CRPropa 3.1 -- a low energy extension based on stochastic differential equations (2017)
  4. Myers, A.; Colella, P.; Straalen, B.van: A 4th-order particle-in-cell method with phase-space remapping for the Vlasov-Poisson equation (2017)
  5. Pierre Fernique, Christophe Pradal: AutoWIG: Automatic Generation of Python Bindings for C++ Libraries (2017) arXiv
  6. Stewart, John M.: Python for scientists (2017)
  7. Berk Ekmekci, Charles E. McAnany, Cameron Mura: An Introduction to Programming for Bioscientists: A Python-based Primer (2016) arXiv
  8. Dalcin, L.; Collier, N.; Vignal, P.; Côrtes, A. M. A.; Calo, V. M.: PetIGA: a framework for high-performance isogeometric analysis (2016)
  9. Drawert, Brian; Trogdon, Michael; Toor, Salman; Petzold, Linda; Hellander, Andreas: MOLNs: a cloud platform for interactive, reproducible, and scalable spatial stochastic computational experiments in systems biology using pyurdme (2016) ioport
  10. Hurtado-Velasco, Ronald; Gonzalez-Llorente, Jesus: Simulation of the magnetic field generated by square shape Helmholtz coils (2016)
  11. Jonsson, Patrick; Andreasson, Patrik; Hellström, J. Gunnar I.; Jonsén, Pär; Staffan Lundström, T.: Smoothed particle hydrodynamic simulation of hydraulic jump using periodic open boundaries (2016)
  12. Kaur, Inderpreet; Mentrelli, Andrea; Bosseur, Frédéric; Filippi, Jean-Baptiste; Pagnini, Gianni: Turbulence and fire-spotting effects into wild-land fire simulators (2016)
  13. Keip, Marc-Andre; Rambausek, Matthias: A multiscale approach to the computational characterization of magnetorheological elastomers (2016)
  14. Kraus, Michael; Tassi, Emanuele; Grasso, Daniela: Variational integrators for reduced magnetohydrodynamics (2016)
  15. Linge, Svein; Langtangen, Hans Petter: Programming for computations -- Python. A gentle introduction to numerical simulations with Python (2016)
  16. Liu, Yinping; Yao, Ruoxia; Li, Zhibin; Yang, Le; Zhang, Zhian: An online computing and knowledge platform for differential equations (2016)
  17. Matthew J. Wakefield: SurvivalVolume: interactive volume threshold survival graphs (2016) not zbMATH
  18. Milk, René; Rave, Stephan; Schindler, Felix: PyMOR -- generic algorithms and interfaces for model order reduction (2016)
  19. Unpingco, José: Python for probability, statistics, and machine learning (2016)
  20. Donges, Jonathan F.; Heitzig, Jobst; Beronov, Boyan; Wiedermann, Marc; Runge, Jakob; Feng, Qing Yi; Tupikina, Liubov; Stolbova, Veronika; Donner, Reik V.; Marwan, Norbert; Dijkstra, Henk A.; Kurths, Jürgen: Unified functional network and nonlinear time series analysis for complex systems science: the pyunicorn package (2015)