PETSc 3.17#
PETSc, the Portable, Extensible Toolkit for Scientific Computation, pronounced PET-see (/ˈpɛt-siː/), is a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It supports MPI, and GPUs through CUDA, HIP or OpenCL, as well as hybrid MPI-GPU parallelism; it also supports the NEC-SX Tsubasa Vector Engine. PETSc (sometimes called PETSc/TAO) also contains the TAO, the Toolkit for Advanced Optimization, software library.
PETSc is developed as open-source, requests and contributions are welcome.
News#
News: New Book on PETSc
PETSc for Partial Differential Equations: Numerical Solutions in C and Python, by Ed Bueler, is available.
News: New paper on PETSc community
News: Paper on PETSc communication System
News: Paper on PETSc usage with GPUs
Toward Performance-Portable PETSc for GPU-based Exascale Systems
Main Topics#
Toolkits/libraries that use PETSc#
ADflow An Open-Source Computational Fluid Dynamics Solver for Aerodynamic and Multidisciplinary Optimization
BOUT++ Plasma simulation in curvilinear coordinate systems
Chaste Cancer, Heart and Soft Tissue Environment
code_aster open source general purpose finite element code for solid and structural mechanics
COOLFluiD CFD, plasma and multi-physics simulation package
DAFoam Discrete adjoint solvers with OpenFOAM for aerodynamic optimization
DEAL.II C++ based finite element simulation package
DUNE-FEM Python and C++ based finite element simulation package
FEniCS Python based finite element simulation package
Firedrake Python based finite element simulation package
Fluidity a finite element/volume fluids code
FreeFEM finite element PDE solver with embedded domain specific language
hIPPYlib FEniCS based toolkit for solving large-scale deterministic and Bayesian inverse problems governed by partial differential equations
libMesh adaptive finite element library
MFEM lightweight, scalable C++ library for finite element methods
MLSVM, Multilevel Support Vector Machines with PETSc.
MoFEM, An open source, parallel finite element library
MOOSE - Multiphysics Object-Oriented Simulation Environment finite element framework, built on top of libMesh and PETSc
OOFEM object oriented finite element library
OpenCarp Cardiac Electrophysiology Simulator
OpenFOAM Available as an extension for linear solvers for OpenFOAM
OpenFVM finite volume based CFD solver
PermonSVM support vector machines and PermonQP quadratic programming
PetIGA A framework for high performance Isogeometric Analysis
PHAML The Parallel Hierarchical Adaptive MultiLevel Project
preCICE - A fully parallel coupling library for partitioned multi-physics simulations
PyClaw A massively parallel, high order accurate, hyperbolic PDE solver
SLEPc Scalable Library for Eigenvalue Problems
Citing PETSc#
You can run any PETSc program with the option -citations
to print appropriate citations for the algorithms you are using within PETSc.
For general citations on PETSc please use the following:
@misc{petsc-web-page,
author = {Satish Balay and Shrirang Abhyankar and Mark~F. Adams and Steven Benson and Jed Brown
and Peter Brune and Kris Buschelman and Emil~M. Constantinescu and Lisandro Dalcin and Alp Dener
and Victor Eijkhout and William~D. Gropp and V\'{a}clav Hapla and Tobin Isaac and Pierre Jolivet
and Dmitry Karpeev and Dinesh Kaushik and Matthew~G. Knepley and Fande Kong and Scott Kruger
and Dave~A. May and Lois Curfman McInnes and Richard Tran Mills and Lawrence Mitchell and Todd Munson
and Jose~E. Roman and Karl Rupp and Patrick Sanan and Jason Sarich and Barry~F. Smith
and Stefano Zampini and Hong Zhang and Hong Zhang and Junchao Zhang},
title = {{PETS}c {W}eb page},
url = {https://petsc.org/},
howpublished = {\url{https://petsc.org/}},
year = {2022},
}
@techreport{petsc-user-ref,
author = {Satish Balay and Shrirang Abhyankar and Mark~F. Adams and Steven Benson and Jed Brown
and Peter Brune and Kris Buschelman and Emil Constantinescu and Lisandro Dalcin and Alp Dener
and Victor Eijkhout and William~D. Gropp and V\'{a}clav Hapla and Tobin Isaac and Pierre Jolivet
and Dmitry Karpeev and Dinesh Kaushik and Matthew~G. Knepley and Fande Kong and Scott Kruger
and Dave~A. May and Lois Curfman McInnes and Richard Tran Mills and Lawrence Mitchell and Todd Munson
and Jose~E. Roman and Karl Rupp and Patrick Sanan and Jason Sarich and Barry~F. Smith
and Stefano Zampini and Hong Zhang and Hong Zhang and Junchao Zhang},
title = {{PETSc/TAO} Users Manual},
institution = {Argonne National Laboratory},
number = {ANL-21/39 - Revision 3.17},
year = {2022},
}
@inproceedings{petsc-efficient,
author = {Satish Balay and William~D. Gropp and Lois Curfman McInnes and Barry~F. Smith},
title = {Efficient Management of Parallelism in Object Oriented Numerical Software Libraries},
booktitle = {Modern Software Tools in Scientific Computing},
editor = {E. Arge and A.~M. Bruaset and H.~P. Langtangen},
publisher = {Birkh{\"{a}}user Press},
pages = {163--202},
year = {1997}
}
For PETSc usage on GPUs please cite
@article{MILLS2021,
title = {Toward performance-portable {PETS}c for {GPU}-based exascale systems},
journal = {Parallel Computing},
volume = {108},
pages = {102831},
year = {2021},
issn = {0167-8191},
doi = {https://doi.org/10.1016/j.parco.2021.102831},
url = {https://www.sciencedirect.com/science/article/pii/S016781912100079X},
author = {Richard Tran Mills and Mark F. Adams and Satish Balay and Jed Brown and Alp Dener and Matthew Knepley and Scott E. Kruger and Hannah Morgan and Todd Munson and Karl Rupp and Barry F. Smith and Stefano Zampini and Hong Zhang and Junchao Zhang},
}
For PetscSF – parallel communication in PETSc – please cite
@article{PetscSF2022,
author={Zhang, Junchao and Brown, Jed and Balay, Satish and Faibussowitsch, Jacob and Knepley, Matthew and Marin, Oana and Mills, Richard Tran and Munson, Todd and Smith, Barry F. and Zampini, Stefano},
journal={IEEE Transactions on Parallel and Distributed Systems},
title={The {PetscSF} Scalable Communication Layer},
year={2022},
volume={33},
number={4},
pages={842-853},
}
If you use the TS component of PETSc please cite the following:
@techreport{AbhyankarEtAl2018,
author = {Shrirang Abhyankar and Jed Brown and Emil M. Constantinescu and Debojyoti Ghosh and Barry F. Smith and Hong Zhang},
title = {{PETSc/TS}: {A} Modern Scalable {ODE/DAE} Solver Library},
journal = {arXiv e-preprints},
eprint = {1806.01437},
archivePrefix = {arXiv},
year = {2018},
}
If you utilize the TS adjoint solver please cite
@techreport{ZhangConstantinescuSmith2019,
author = {Hong Zhang and Emil M. Constantinescu and Barry F. Smith},
title = {{PETSc TSAdjoint}: a discrete adjoint {ODE} solver for first-order and second-order sensitivity analysis},
journal = {arXiv e-preprints},
eprint = {1912.07696},
archivePrefix = {arXiv},
year = {2019},
}