A high-performance Python application for visualizing relativistic hydrogen-like wavefunctions and dipole transitions using the Dirac equation.

A Unified Framework for Decentralized Frontier-Scale Inference

This repository contains the Jupyter Notebook (.ipynb) files developed as part of the course Natural Sciences and Technology (CNYT) at Escuela Colombiana de Ingeniería. These files include solutions to a variety of exercises related to quantum computing concepts.

Testing GHZ state creation

🔍 Visualize hydrogenic states and their dynamics with this high-performance Python tool for interactive 3D analysis of relativistic Dirac spinors.