Lines Matching +full:petsc4py +full:- +full:install
4 pronounced PET-see ([/ˈpɛt-siː/](https://en.wikipedia.org/wiki/Help:IPA/English#Key)), is
6 applications modeled by partial differential equations (PDEs). It has bindings for C, Fortran, and Python (via petsc4py).
9 CUDA, HIP, Kokkos, or OpenCL, as well as hybrid MPI-GPU parallelism; they also support the NEC-SX Tsubasa Vector Engine.
14 The exciting [2026 PETSc Annual User Meeting](https://www.firedrakeproject.org/firedrake_26.html) will take place June 1-3, 2026 in Oxford, UK. It is paired with the Firedrake Meeting taking place at the end of the week, and we would encourage everyone to try and stay the whole week. More info at {any}`community/meetings/meeting`.
17 The PETSc community held an online Birds-of-a-Feather (BoF) session on February 11, 2026, as part of the [CASS BoF Days](https://cass.community/news/2026-02-10-cass-bof-days.html). The session was not recorded. The agenda and slides are availabe at {any}`here<2026-feb-cass-petsc-bof>`.
20 to Mrs. Hong Zhang's retirement by unanimous vote of the PETSc council. {any}`Current list of NumFOCUS signatories<numfocus-signatories>`.
22 [SIAM News article](https://www.siam.org/publications/siam-news/articles/opencarp-personalized-computational-model-of-the-heart-examines-cardiac-rhythm/)
23 on the PETSc-powered [OpenCarp](https://opencarp.org/) cardiac electrophysiology simulator.
29 > - [Book from SIAM Press](https://my.siam.org/Store/Product/viewproduct/?ProductId=32850137)
30 > - [Google Play E-book](https://play.google.com/store/books/details/Ed_Bueler_PETSc_for_Partial_Differential_Equations?id=tgMHEAAAQBAJ)
38 install/index
42 petsc4py/index
55 - [ADflow](https://github.com/mdolab/adflow) An open-source
58 - [BOUT++](https://boutproject.github.io) Plasma simulation
60 - [Chaste](https://www.cs.ox.ac.uk/chaste/) Cancer, Heart and
62 - [code_aster](https://www.code-aster.org/V2/spip.php?rubrique2)
63 open-source general purpose finite element code for solid and
65 - [code_saturne](https://www.code-saturne.org)
66 open-source general purpose code for fluid dynamics
67 - [COOLFluiD](https://github.com/andrealani/COOLFluiD) CFD,
68 plasma and multi-physics simulation package
69 - [DAFoam](https://dafoam.github.io) Discrete adjoint solvers
72 - [DAMASK](https://damask-multiphysics.org) Unified multi-physics
74 - [DEAL.II](https://www.dealii.org/) C++-based finite element
76 - [DUNE-FEM](https://dune-project.org/sphinx/content/sphinx/dune-fem/) Python and C++-based finite element simulation package
77 - [FEniCS](https://fenicsproject.org/) Python-based finite
79 - [Firedrake](https://www.firedrakeproject.org/) Python-based
81 - [Fluidity](https://fluidityproject.github.io/) a finite
83 - [FreeFEM](https://freefem.org/) finite element and boundary element PDE solver
85 - [GetDP](https://www.getdp.info/) a General Environment for the Treatment of Discrete Problems
86 - [Gridap](https://gridap.github.io/Gridap.jl/stable/) a Julia-based finite element simulation package through the [GridapPETSc](https://github.com/gridap/GridapPETSc.jl) plugin
87 - [hIPPYlib](https://hippylib.github.io) [FEniCS](https://fenicsproject.org/)-based toolkit
90 - [libMesh](https://libmesh.github.io) adaptive finite element
92 - [MFEM](https://mfem.org/) lightweight, scalable C++ library
94 - [MLSVM](https://github.com/esadr/mlsvm), Multilevel Support
96 - [MoFEM](http://mofem.eng.gla.ac.uk/mofem/html), An open
98 - [MOOSE - Multiphysics Object-Oriented Simulation
101 - [OOFEM](http://www.oofem.org) object-oriented finite element
103 - [OpenCarp](https://opencarp.org/) Cardiac electrophysiology simulator
104 - [OpenFOAM](https://develop.openfoam.com/modules/external-solver)
106 - [OpenFPM](https://openfpm.mpi-cbg.de/) framework for particles and mesh simulation
107 - [OpenFVM](http://openfvm.sourceforge.net/) finite volume
109 - [PermonSVM](http://permon.vsb.cz/permonsvm.htm) support
113 - [PetIGA](https://github.com/dalcinl/PetIGA) A framework
115 - [PFLOTRAN](https://pflotran.org/) An open source, state-of-the-art
117 - [PHAML](https://math.nist.gov/phaml/) The Parallel
119 - [preCICE](https://www.precice.org) - A fully parallel
120 coupling library for partitioned multi-physics simulations
121 - [PyClaw](https://www.clawpack.org/pyclaw/) A massively
123 - [SLEPc](https://slepc.upv.es/) Scalable Library for
125 - [tmm4py](https://github.com/samarkhatiwala/tmm) Transport Matrix Method for simulating ocean biogeochemical processes
126 - [Underworld3](https://www.underworldcode.org/underworld3-come-and-get-it/) Mathematically Self-Describing Modelling in Python for Geodynamics
132 You can run PETSc programs with the option `-citations` to print appropriate citations for the software and algorithms being used in that program.
138 :end-at: year
140 :start-at: petsc-web-page
145 :end-at: year
147 :start-at: petsc-user-ref
152 :end-at: year
154 :start-at: petsc-efficient
157 For petsc4py usage please cite
161 :end-at: year
163 :start-at: dalcinpazklercosimo2011
170 :end-at: author
172 :start-at: mills2021
175 For `PetscSF` -- parallel communication in PETSc -- please cite
179 :end-at: pages
181 :start-at: petscsf2022
188 :end-at: year
190 :start-at: abhyankaretal2018
197 :end-at: year
199 :start-at: zhang2022tsadjoint