ArrayFire is a high performance library for parallel computing with an easy-to-use API. It enables users to write scientific computing code that is portable across CUDA, OpenCL and CPU devices. This project provides Python bindings for the ArrayFire library.
OS | Tests |
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Linux | |
Windows | |
OSX | |
Linux on ARM |
Documentation for this project can be found over here.
# Monte Carlo estimation of pi
def calc_pi_device(samples):
# Simple, array based API
# Generate uniformly distributed random numers
x = af.randu(samples)
y = af.randu(samples)
# Supports Just In Time Compilation
# The following line generates a single kernel
within_unit_circle = (x * x + y * y) < 1
# Intuitive function names
return 4 * af.count(within_unit_circle) / samples
Choosing a particular backend can be done using af.backend.set( backend_name )
where backend_name can be one of: "cuda", "opencl", or "cpu". The default device is chosen in the same order of preference.
Currently, this project is tested only on Linux and OSX. You also need to have the ArrayFire C/C++ library installed on your machine. You can get it from the following sources.
Please check the following links for dependencies.
Install the last stable version:
pip install arrayfire
Install the development version:
pip install git+git://github.com/arrayfire/arrayfire-python.git@devel
Installing offline
cd path/to/arrayfire-python
python setup.py install
Post Installation
Please follow these instructions to ensure the arrayfire-python can find the arrayfire libraries.
The ArrayFire library is written by developers at ArrayFire LLC with contributions from several individuals.
The developers at ArrayFire LLC have received partial financial support from several grants and institutions. Those that wish to receive public acknowledgement are listed below:
This material is based upon work supported by the DARPA SBIR Program Office under Contract Numbers W31P4Q-14-C-0012 and W31P4Q-15-C-0008. Any opinions, findings and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the DARPA SBIR Program Office.