Software that is useful for relativity research, notably software for numerical simulations and for algebraic calculations.
The Cactus Code
A modular manageable high-performance 3D tool for Numerical Relativity.
A mesh refinement driver for the Cactus code; the primary application is the simulation of black hole spacetimes.
Form Symbolic Manipulation System
A free software package for manipulating tensors (abstract index notation) and other multi-component objects; highly suitable for calculations in general relativity and related theories such as supergravity. Documentation, course material, and possibilities for download.
A computer algebra package for performing differential geometry calculations. Demonstrations of the package's applications to general relativity.
LORENE (Langage Objet pour la RElativite NumeriquE)
Provides a set of C++ classes to solve various problems arising in numerical relativity and other areas of computational astrophysics.
An open framework for large numerical simulations in general relativity.
A Mathematica package for doing tensor calculations in differential geometry and general relativity.
Riemann Package for Maple
Package written in Maple for calculating tensor components in General Relativity and performing some abstract tensor manipulation; suitable for calculations in general relativity and for quantum field theory in curved spacetime. Features brief description, download for Maple V and for Maple 6 or higher, and examples.
A code to evolve the equations of hydrodynamics in curved spacetime (relativistic numerical hydrodynamics).
Last update:February 13, 2015 at 7:24:10 UTC