A Python utility for analyzing a given solution to the Einstein's field equations. Built on Sympy.
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Updated
Apr 17, 2025 - Python
A Python utility for analyzing a given solution to the Einstein's field equations. Built on Sympy.
GTRPy is a GUI based application that allows users to perform Tensor and 6 different type of field operations in both 3D and 4D
From topology to first principles.
Python port of WarpFactory - a numerical toolkit for analyzing warp drive spacetimes with general relativity: metrics, Einstein solver, energy conditions
This code is written with Mathematica 13.2 and improved by version 13.3. It will compute some key ingredients of standard general relativity.
a "Main" repo for my math notes.
DIfferential Geometry with Python — see the package at the link below
Physics, Quantum, Classical, GR/SR.
Full Math Einsteinn
A reproducible toolkit that classifies inhomogeneous cosmological dynamics in Einstein's field equations through a non-redundant geometric diagnostic phase space with an explicit electric and magnetic Weyl split, validated on six exact and perturbative benchmarks.
Bridging numerical relativity and automatic differentiation using JAX
A propose → verify → evolve loop hunting exact solutions of Einstein's field equations. Genetic programming proposes metrics, SymPy proves them — theorem or nothing — and curvature-invariant fingerprints unmask century-old solutions in disguise.
Model mass-energy systems with the Keebler Equation using a linear algebra engine and 3D visualization to map quantum states to thermodynamic variables.
🌌 Compute key tensors from Einstein's theory using JAX for precise numerical relativity with automatic differentiation.
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