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dft_tools/doc/reference/arrays/introduction.rst
tayral edd1ff4529 Restructuring documentation.
A first general restructuration of the doc according to the pattern [tour|tutorial|reference].
In the reference part, objects are documented per topic.
In each topic, [definition|c++|python|hdf5] (not yet implemented)
2014-10-18 12:21:08 +01:00

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Rational
===========================
.. highlight:: c
This library provides a multi-dimensionnal array library
for numerical computations with the following characteristics/goals:
* **Simplicity of use** :
Arrays must be as simple to use as in python (numpy) or fortran.
This library is designed to be used by physicists, not by professionnal
programmers. We do *a lot* of array manipulations, and we want to maintain
*readable* codes.
* **Genericity, abstraction and performance**:
We want to have simple, readeable code, with the same (or better) speed than manually written low-level code.
Most optimisations should be delegated to the library and the compiler.
(Some) LAPACK and BLAS operations are interfaced.
* **Complete interoperability with python numpy arrays**.
This library is used a lot with mixed C++/python codes.
It handles quick conversion between the C++ and python world, e.g. :
* work on a view of a numpy,
* create a array in C++, and return it as a numpy.
* mix the various kind of arrays transparently in C++ expressions.
* **HDF5**: simple interface to hdf5 library to ease storing/retrieving into/from HDF5 files.
* **MPI**: compatibility with boost::mpi interface.