Welcome to the Python3 interface of HIFIR package--- hifir4py. The Python interface is implemented with Cython.
Detailed documentation of hifir4py
can be found at https://hifirworks.github.io/hifir4py.
One can simply use pip
to install hifir4py
, i.e.,
pip3 install hifir4py --user
For Windows users, we recommend using Windows Subsystem for Linux (WSL) or Cygwin.
It is also possible to install from the source. First, down load the most recent stable release
git clone -b release https://github.com/hifirworks/hifir4py.git
You can update to the most recent version via git pull
since git clone
or last git pull
. In addition, you can download the archives at
https://github.com/hifirworks/hifir4py/releases.
You need to configure linking against LAPACK by setting the environment
variable HIFIR_LAPACK_LIB
whose default is -llapack
. If you
have a specific library path to LAPACK, you then need to set the environment
variable HIFIR_LAPACK_LIB_PATH
.
To sum up, the following environment variables can be configured
HIFIR_LAPACK_LIB
, default is-llapack
HIFIR_LAPACK_LIB_PATH
, default is empty
pip3 install . --user
Sometimes, it's helpful to have optimized LAPACK package. The following command shows how to link MKL (on Ubuntu).
HIFIR_LAPACK_LIB="-lmkl_intel_lp64 -lmkl_sequential -lmkl_core" HIFIR_LAPACK_LIB_PATH=/opt/intel/mkl/lib/intel64 pip3 install . --user
hifir4py
is developed and maintained by the NumGeom Research Group at
Stony Brook University.
This software suite is released under a dual-license model. For academic users, individual users, or open-source software developers, you can use HIFIR under the AGPLv3+ license free of charge for research and evaluation purpose. For commercial users, separate commercial licenses are available through the Stony Brook University. For inqueries regarding commercial licenses, please contact Prof. Xiangmin Jiao at [email protected].
If you use HIFIR (including hifir4py
) in your research for nonsingular
systems, please cite the following paper.
@article{chen2021hilucsi,
author = {Chen, Qiao and Ghai, Aditi and Jiao, Xiangmin},
title = {{HILUCSI}: Simple, robust, and fast multilevel {ILU} for
large-scale saddle-point problems from {PDE}s},
journal = {Numer. Linear Algebra Appl.},
year = {2021},
doi = {10.1002/nla.2400}
}
If you use our work in solving ill-conditioned and singular systems, we recommend you to cite the following papers.
@article{jiao2020approximate,
author = {Xiangmin Jiao and Qiao Chen},
journal = {arxiv},
title = {Approximate generalized inverses with iterative refinement
for $\epsilon$-accurate preconditioning of singular systems},
year = {2020},
note = {arXiv:2009.01673}
}
@article{chen2021hifir,
author = {Chen, Qiao and Jiao, Xiangmin},
title = {{HIFIR}: Hybrid incomplete factorization with iterative
refinement for preconditioning ill-conditioned and singular
Systems},
journal = {arxiv},
year = {2021},
note = {arXiv:2106.09877}
}
- Qiao (Chiao) Chen, <[email protected]>, <[email protected]>
- Xiangmin Jiao, <[email protected]>