Source: qutip Section: python Priority: optional Maintainer: Debian Science Maintainers Uploaders: Drew Parsons Build-Depends: debhelper-compat (= 13), dh-python, pybuild-plugin-pyproject, python3-all, python3-all-dev, python3-setuptools, cython3 (>= 0.29.20~), python3-cvxopt, python3-matplotlib (>= 1.2.1~), python3-numpy (>= 1.16.6~), python3-scipy (>=1.0), python3-nose2, python3-ipython , python3-pytest (>= 5.2~), python3-sphinx Build-Depends-Indep: libjs-mathjax, python3-ipython, python3-numpydoc, python3-sphinx-gallery, python3-sphinx-rtd-theme, python3-sphinxcontrib.bibtex Standards-Version: 4.6.2 Homepage: http://qutip.org/ Vcs-Browser: https://salsa.debian.org/science-team/qutip Vcs-Git: https://salsa.debian.org/science-team/qutip.git Package: python3-qutip Architecture: any Depends: g++, python3-dev, python3-matplotlib, ${python3:Depends}, ${misc:Depends}, ${shlibs:Depends} Suggests: python-qutip-doc Description: python package for simulating the dynamics of open quantum systems QuTiP is open-source software for simulating the dynamics of open quantum systems. The QuTiP library depends on the excellent Numpy, Scipy, and Cython numerical packages. In addition, graphical output is provided by Matplotlib. QuTiP aims to provide user-friendly and efficient numerical simulations of a wide variety of Hamiltonians, including those with arbitrary time-dependence, commonly found in a wide range of physics applications such as quantum optics, trapped ions, superconducting circuits, and quantum nanomechanical resonators. . This package installs the library for Python 3. Package: python-qutip-doc Architecture: all Depends: libjs-mathjax, ${sphinxdoc:Depends}, ${python3:Depends}, ${misc:Depends} Recommends: python3-qutip Description: python package for simulating open quantum systems (docs) QuTiP is open-source software for simulating the dynamics of open quantum systems. The QuTiP library depends on the excellent Numpy, Scipy, and Cython numerical packages. In addition, graphical output is provided by Matplotlib. QuTiP aims to provide user-friendly and efficient numerical simulations of a wide variety of Hamiltonians, including those with arbitrary time-dependence, commonly found in a wide range of physics applications such as quantum optics, trapped ions, superconducting circuits, and quantum nanomechanical resonators. . This package provides documentation for QuTiP.