R&D in fast | intelligent software tooling for theoretical physics
Accelerating the quest for quantum gravity through high-performance computation
We develop intelligent, high-performance software tools that accelerate research in theoretical physics—with a focus on quantum gravity. Our work bridges the gap between cutting-edge physical theory and practical computational implementation.
| Repository | Description | Language |
|---|---|---|
| autograv | Numerical relativity meets automatic differentiation | JAX/Python |
| pauliz | Zero-dependency quantum computing simulation | Zig |
| attn-as-bilinear-form | Transformer attention via tensor calculus & differential geometry | Research |
Our name comes from planckeons—theoretical entities at the Planck scale (~10⁻³⁵ m) where quantum mechanics and gravity merge. Recent research models them as the fundamental "grains" of spacetime, realizing the ER=EPR conjecture through networks of quantum wormholes.
Just as planckeons bridge the quantum and gravitational realms, we build software that bridges theoretical physics and practical computation.
Learn more about our mission and the physics behind our name
"The universe is not only queerer than we suppose, but queerer than we can suppose." — J.B.S. Haldane
