There are 2 repositories under hyperbolic topic.
Curvlearn, a Tensorflow based non-Euclidean deep learning framework.
NRPy+, BlackHoles@Home, SENRv2, and the NRPy+ Jupyter Tutorial: Python-Based Code Generation for Numerical Relativity... and Beyond!
Reference Implementation for WSDM 2018 Paper "Hyperbolic Representation Learning for Fast and Efficient Neural Question Answering"
Implementation of ICLR 21 paper: Probing BERT in Hyperbolic Spaces
HyperKG: Hyperbolic Knowledge Graph Embeddings for Knowledge Base Completion
Binding curve simulation and experimental data fitting for multi component protein-ligand systems
Implementation of the SIGGRAPH Asia 2016 paper, "Hyperbolic Orbifold Tutte Embeddings"
This is the repository for the KDD 2022 paper "HyperAid: Denoising in hyperbolic spaces for tree-fitting and hierarchical clustering".
Code for Hyperbolic vs Euclidean Embeddings in Few-Shot Learning: Two Sides of the Same Coin, WACV (2024)
Poincare disk model on HTML5 canvas. Engine ready for development. It allows you to draw polygons, rotate them, move them, it also has a built-in tessellation demo.
Compute the inverse hyperbolic cotangent.
Compute the hyperbolic arccosine of a number.
Compute the hyperbolic arcsine of a number.
Compute the hyperbolic cosecant of a number.
Compute the hyperbolic arctangent of a number.
Create an iterator which computes the hyperbolic arcsine of each iterated value.
Create an iterator which computes the hyperbolic arctangent of each iterated value.
Create an iterator which computes the hyperbolic cosine for each iterated value.
Create an iterator which evaluates the hyperbolic sine for each iterated value.
Compute the hyperbolic arccosine of each element retrieved from an input strided array via a callback function.
Compute the inverse hyperbolic cotangent of each element retrieved from an input strided array via a callback function.
Compute the hyperbolic arcsine of each element retrieved from an input strided array via a callback function.
Compute the hyperbolic arctangent of each element retrieved from an input strided array via a callback function.
Compute the hyperbolic arccosine of a number.
Compute the inverse (arc) secant of a number.
Compute the hyperbolic arcsecant of a number.
Compute the hyperbolic cosine of a number.
Compute the hyperbolic cotangent of a number.
Compute the hyperbolic sine of a number.
Compute the hyperbolic tangent of a number.
Create an iterator which computes the hyperbolic arccosine of each iterated value.
Create an iterator which evaluates the hyperbolic tangent for each iterated value.