Quantum annealing-based approach for distribution unfolding in experimental High-Energy Physics: statistical problem definition, QUBO formulation, and actual implementation on D-Wave systems
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Updated
Sep 19, 2024 - Python
Quantum annealing-based approach for distribution unfolding in experimental High-Energy Physics: statistical problem definition, QUBO formulation, and actual implementation on D-Wave systems
This repository contains the code for solving the EV charging station placement problem using simulated annealing and genetic algorithms.
My implementation of Deutsch's Algorithm using D-Wave Gates.
My implementation of the Quantum Superdense Algorithm using D-Wave Gates.
My personal implementation of Quantum Teleportation using D-Wave Gate Package
dann5.ocean version 2
My code for playing DWave
Quantum computing experiments via DWave's quantum annealing.
Projects done with the help of D-Wave's Ocean
READ ONLY CODEBERG.ORG MIRROR - A GUI to communicate with quantum computers from DWAVE
READ ONLY CODEBERG.ORG MIRROR - The main Repository of our Jugend Forscht Project about quantum computers
Parallel Quantum Annealing
Exploring D-Wave Quantum Annealers
Python implementation of Bayesian Network Structure Learning using Quantum Annealing https://doi.org/10.1140/epjst/e2015-02349-9
Research project conducted at ICFO within the Quantum Information Theory group
Examples of using DWave quantum annealing system
Final project for CMPUT 604 Quantum Computing
Graph decomposition algorithms for MaxClique and Minimum Vertex Cover problems
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