SCOREC Core

The SCOREC Core is a set of C/C++ libraries for unstructured mesh simulations on supercomputers.

For more information, start at our wiki page

What is in this repository?

PUMI: parallel unstructured mesh infrastructure API User's Guide
PCU: Communication and file IO built on MPI
APF: Abstract definition of meshes, fields, and related operations
GMI: Common interface for geometric modeling kernels
MDS: Compact but flexible array-based mesh data structure
PARMA: Scalable partitioning and load balancing procedures
SPR: Superconvergent Patch Recovery error estimator
MA: Anisotropic mixed mesh adaptation and solution transfer
SAM: Sizing anisotropic meshes
STK: Conversion from APF meshes to Sandia's STK meshes
ZOLTAN: Interface to run Sandia's Zoltan code on APF meshes
PHASTA: Tools and file formats related to the PHASTA fluid solver
MTH: Math containers and routines
CRV: Support for curved meshes with Bezier Shapes
PYCORE: Python Wrappers (see python_wrappers/README.md for build instructions)
REE: Residual based implicit error estimator

How do I get set up?

Dependencies: CMake for compiling and MPI for running
Configuration: Typical CMake configure and build. The example_config.sh shows common options to select, use a front-end like ccmake to see a full list of options
Tests: the test/ subdirectory has tests and standalone tools that can be compiled by explicitly listing them as targets to make.
Users: make install places libraries and headers in a specified prefix, application code can use these in their own compilation process. We also install pkg-config files for all libraries.

Contribution guidelines

Don't break the build
See the STYLE file
If in doubt, make a branch
Run the ctest suite
Don't try to force push to master or develop; it is disabled

Who do I talk to?

If you have a usage question or have found a bug please post an issue.
Otherwise, email Cameron Smith and pumi@scorec.rpi.edu.

Citing PUMI

If you use these tools, please cite the following paper:

Daniel A. Ibanez, E. Seegyoung Seol, Cameron W. Smith, and Mark S. Shephard. 2016. PUMI: Parallel Unstructured Mesh Infrastructure. ACM Trans. Math. Softw. 42, 3, Article 17 (May 2016), 28 pages. DOI: https://doi.org/10.1145/2814935

We would be happy to provide feedback on journal submissions using PUMI prior to publication.

Name		Name	Last commit message	Last commit date
Latest commit History 6,502 Commits
.github		.github
apf		apf
apf_cap		apf_cap
apf_sim		apf_sim
can		can
capstone_clis		capstone_clis
cdash		cdash
cmake		cmake
crv		crv
doc		doc
dsp		dsp
gmi		gmi
gmi_cap		gmi_cap
gmi_sim		gmi_sim
lion		lion
ma		ma
mds		mds
mth		mth
omega_h		omega_h
parma		parma
pcu		pcu
phasta		phasta
pumi-meshes @ c00ba9c		pumi-meshes @ c00ba9c
pumi		pumi
python_wrappers		python_wrappers
ree		ree
sam		sam
spr		spr
stk		stk
test		test
zoltan		zoltan
.gitignore		.gitignore
.gitmodules		.gitmodules
CITATION.cff		CITATION.cff
CMakeLists.txt		CMakeLists.txt
Doxyfile.in		Doxyfile.in
Doxyfile_internal.in		Doxyfile_internal.in
LICENSE		LICENSE
README.md		README.md
STYLE.md		STYLE.md
design.tex		design.tex
env-scorec.sh		env-scorec.sh
example_config.sh		example_config.sh
example_config_with_python_interface.sh		example_config_with_python_interface.sh
latex.sh		latex.sh
mpich3-gcc4.9.2-config.sh		mpich3-gcc4.9.2-config.sh
pkg_tribits.cmake		pkg_tribits.cmake
proteusconfig.sh		proteusconfig.sh
proteushash.py		proteushash.py
scorec.dox		scorec.dox
scorec.png		scorec.png
scorec_footer.html		scorec_footer.html

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CEED/PUMI

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SCOREC Core

What is in this repository?

How do I get set up?

Contribution guidelines

Who do I talk to?

Citing PUMI

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