We are pleased to announce the twenty-eighth release (code name “Lev Landau”) of the Einstein Toolkit, an open-source, community-developed software infrastructure for relativistic astrophysics. The major changes in this release include:
One new thorn has been added:
* NewRadX — This thorn provides radiative outer boundaries for the CarpetX driver.
Updated thorns:
* GRHayL-based IllinoisGRMHD — this release introduces entropy evolution, tabulated equation of state, and piecewise polytrope support
* Baikal(Vacuum) — updated to use the new version of the Python code generator NRPy 2.0
* GRHayLHD(X) — now has a tabulated EOS
* Kuibit — now supports reading the OpenPMD files generated by CarpetX
In addition, bug fixes accumulated since the previous release in Nov 2023 have been included. Including ticket number 2647, correction to the WENO coefficients.
The Einstein Toolkit is a collection of software components and tools for simulating and analyzing general relativistic astrophysical systems. It builds on numerous software efforts in the numerical relativity community, including codes to compute initial data parameters, the spacetime evolution codes Baikal, lean_public, and McLachlan, analysis codes to compute horizon characteristics and gravitational waves, the Carpet AMR infrastructure, and the relativistic (magneto)hydrodynamics codes GRHayLHD, GRHayLHDX, GRHydro, and IllinoisGRMHD. Data analysis and post-processing are handled by the kuibit library. The Einstein Toolkit also contains a 1D self-force code. For parts of the toolkit, the Cactus Framework is used as the underlying computational infrastructure, providing large-scale parallelization, general computational components, and a model for collaborative, portable code development.
The Einstein Toolkit uses a distributed software model. Its different modules are developed, distributed, and supported either by the core team of Einstein Toolkit Maintainers or by individual groups. Where modules are provided by external groups, the Einstein Toolkit Maintainers ensure quality control for modules included in the toolkit and help coordinate support. The Einstein Toolkit Maintainers currently involve staff and faculty from five different institutions and host weekly meetings that are open to anyone.
Guiding principles for the design and implementation of the toolkit include: open, community-driven software development; well thought-out and stable interfaces; separation of physics software from computational science infrastructure; provision of complete working production code; training and education for a new generation of researchers.
For more information about using or contributing to the Einstein Toolkit, or to join the Einstein Toolkit Consortium, please visit our web pages at http://einsteintoolkit.org, or contact the users mailing list users[AT]einsteintoolkit.org.
The Einstein Toolkit is primarily supported by NSF 2004157/2004044/2004311/2004879/2003893/2114582/2227105 (Enabling fundamental research in the era of multi-messenger astrophysics).
The “Lev Landau” Release Team on behalf of the Einstein Toolkit Consortium (2024-06-28)
Steven R. Brandt, Roland Haas, Peter Diener, Lorenzo Ennoggi, Deborah Ferguson, Liwei Ji, Jay Kalinani, Lucas Timotheo Sanches, Bing-Jyun Tsao, Maxwell Rizzo, Dhruv Srivastava, Terrence Pierre Jacques
June 28, 2024