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Octo-Tiger is an astrophysics program simulating the evolution of star systems
based on the fast multipole method on adaptive Octrees. It was implemented using
high-level C++ libraries, specifically HPX and Vc, which allows its use on
different hardware platforms.
Build Status [master]
Jenkins - All CPU / GPU node-level tests for the 8 major build configurations:
In publications, please use the following publication to cite Octo-Tiger:
Dominic C. Marcello, Sagiv Shiber, Orsola De Marco, Juhan Frank, Geoffrey C. Clayton, Patrick M. Motl, Patrick Diehl, Hartmut Kaiser, "Octo-Tiger: A New, 3D Hydrodynamic Code for Stellar Mergers that uses HPX Parallelisation", accepted for publication in the Monthly Notices of the Royal Astronomical Society, 2021
For more publications, please review Octo-Tigers' documentation.
Funding
Allocations
Porting Octo-Tiger, an astrophysics program simulating the evolution of star systems based on the fast multipole method on adaptive Octrees, Testbed, Ookami, Stony Brook University
Porting Octo-Tiger, an astrophysics program simulating the evolution of star systems based on the fast multipole method on adaptive Octrees, Testbed, Fugaku, RIKEN Center for Computational Science