Project Name | Stars | Downloads | Repos Using This | Packages Using This | Most Recent Commit | Total Releases | Latest Release | Open Issues | License | Language |
---|---|---|---|---|---|---|---|---|---|---|
Ohpc | 790 | 7 months ago | 155 | apache-2.0 | C | |||||
OpenHPC Integration, Packaging, and Test Repo | ||||||||||
Amgcl | 664 | 8 months ago | 13 | May 18, 2017 | 36 | mit | C++ | |||
C++ library for solving large sparse linear systems with algebraic multigrid method | ||||||||||
Ascent | 172 | 6 months ago | 161 | other | C++ | |||||
A flyweight in situ visualization and analysis runtime for multi-physics HPC simulations | ||||||||||
Pism | 90 | 6 months ago | 32 | gpl-3.0 | C++ | |||||
Repository for the Parallel Ice Sheet Model (PISM) | ||||||||||
Esl | 37 | 2 years ago | 1 | apache-2.0 | C++ | |||||
The Economic Simulation Library provides an extensive collection of tools to develop, test, analyse and calibrate economic and financial agent-based models. The library is designed to take advantage of different computer architectures. In order to facilitate rapid iteration during model development the library can use parallel computation. Economic models developed using the library can be deployed into large-scale distributed computing environments when working with large model instances and datasets and provides routines to set up large-scale sampling computations during the analysis and calibration process. | ||||||||||
Edge | 29 | a year ago | 1 | C++ | ||||||
Extreme-scale Discontinuous Galerkin Environment (EDGE) | ||||||||||
Efdcplus | 26 | 8 months ago | 7 | gpl-2.0 | Fortran | |||||
Mpibind | 25 | 6 months ago | 5 | mit | C | |||||
Pragmatic, Productive, and Portable Affinity for HPC | ||||||||||
Python For Hpc | 25 | 6 months ago | 1 | cc-by-4.0 | Jupyter Notebook | |||||
Repository for participants of the "Python for HPC" training | ||||||||||
Ls1 Mardyn | 22 | 6 months ago | 40 | other | C++ | |||||
ls1-MarDyn is a massively parallel Molecular Dynamics (MD) code for large systems. Its main target is the simulation of thermodynamics and nanofluidics. ls1-MarDyn is designed with a focus on performance and easy extensibility. |