Package : ipython > RPM : ipython-2.3.0-2.2.mga5.noarch.rpm
Basic items
InstallName | ipython |
Version | 2.3.0 |
Release | 2.2.mga5 |
URL | http://ipython.org |
Group | Development/Python |
Summary | An interactive computing environment for Python |
Size | 14MB |
Arch | noarch |
License | BSD |
Description
The goal of IPython is to create a comprehensive environment for
interactive and exploratory computing. To support this goal, IPython
has two main components:
* An enhanced interactive Python shell.
* An architecture for interactive parallel computing.
The enhanced interactive Python shell has the following main features:
* Comprehensive object introspection.
* Input history, persistent across sessions.
* Caching of output results during a session with automatically
generated references.
* Readline based name completion.
* Extensible system of 'magic' commands for controlling the
environment and performing many tasks related either to IPython or
the operating system.
* Configuration system with easy switching between different setups
(simpler than changing $PYTHONSTARTUP environment variables every
time).
* Session logging and reloading.
* Extensible syntax processing for special purpose situations.
* Access to the system shell with user-extensible alias system.
* Easily embeddable in other Python programs and wxPython GUIs.
* Integrated access to the pdb debugger and the Python profiler.
The parallel computing architecture has the following main features:
* Quickly parallelize Python code from an interactive Python/IPython
session.
* A flexible and dynamic process model that be deployed on anything
from multicore workstations to supercomputers.
* An architecture that supports many different styles of parallelism,
from message passing to task farming.
* Both blocking and fully asynchronous interfaces.
* High level APIs that enable many things to be parallelized in a few
lines of code.
* Share live parallel jobs with other users securely.
* Dynamically load balanced task farming system.
* Robust error handling in parallel code.
interactive and exploratory computing. To support this goal, IPython
has two main components:
* An enhanced interactive Python shell.
* An architecture for interactive parallel computing.
The enhanced interactive Python shell has the following main features:
* Comprehensive object introspection.
* Input history, persistent across sessions.
* Caching of output results during a session with automatically
generated references.
* Readline based name completion.
* Extensible system of 'magic' commands for controlling the
environment and performing many tasks related either to IPython or
the operating system.
* Configuration system with easy switching between different setups
(simpler than changing $PYTHONSTARTUP environment variables every
time).
* Session logging and reloading.
* Extensible syntax processing for special purpose situations.
* Access to the system shell with user-extensible alias system.
* Easily embeddable in other Python programs and wxPython GUIs.
* Integrated access to the pdb debugger and the Python profiler.
The parallel computing architecture has the following main features:
* Quickly parallelize Python code from an interactive Python/IPython
session.
* A flexible and dynamic process model that be deployed on anything
from multicore workstations to supercomputers.
* An architecture that supports many different styles of parallelism,
from message passing to task farming.
* Both blocking and fully asynchronous interfaces.
* High level APIs that enable many things to be parallelized in a few
lines of code.
* Share live parallel jobs with other users securely.
* Dynamically load balanced task farming system.
* Robust error handling in parallel code.
Media information
Distribution release | Mageia 5 |
Media name | core-updates |
Media arch | x86_64 |
Advanced items
Source RPM | ipython-2.3.0-2.2.mga5.src.rpm |
Build time | 2015-07-14 13:13:09 |
Changelog | View in Sophie |
Files | View in Sophie |
Dependencies | View in Sophie |