The Classiq Library is the largest collection of quantum algorithms, applications. It is the best way to explore quantum computing software. We welcome community contributions to our Library 🙌
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Updated
May 23, 2024 - Jupyter Notebook
The Classiq Library is the largest collection of quantum algorithms, applications. It is the best way to explore quantum computing software. We welcome community contributions to our Library 🙌
🧬 Tools for Quadratic Unconstrained Binary Optimization models in Julia
The Swiss Army Knife of Applied Quantum Technology
JuMP wrapper for IBMQ Optimization Algorithms (ft QUBODrivers.jl)
🌊 D-Wave Neal Simulated Annealing Interface for JuMP
⚛️ 🚀 👽 A self-paced, game-based Quantum Computing learning program for students, researchers and enthusiasts. This program offers a general understanding of Quantum Computing, as well as some of its applications, such as Quantum Machine Learning and Quantum Optimization, and how to program real quantum computers.
OSCAR: configure and debug variational quantum algorithms efficiently
QVoice: Quantum Variational Optimization with In-Constraint Energy
This repository contains a data of the ongoing project work, which is a part my work as Junior researcher at Qkrishi, Gurgaon, India.
Implementation of Mixed Binary Optimization applied to Transaction Settlement
First place, CWRU Quantum Computing Club Hackathon, Fall 2022
An advanced exploration of Quantum Fourier Transform (QFT) using Quantum Machine Learning (QML). This project delves into the optimization of variational quantum circuits, leveraging machine learning techniques to evaluate and visualize the transformation capabilities of QFT in quantum computing.
Qiskit Hackathon Taiwan 2022 - Group 4 - Quantum Mapper
7 days journey of learning more about Qiskit Runtime, QML and Quantum Chemistry application of Quantum Computer through 4 exercises and a final challenge by IBM Quantum in Fall 2022.
QUBO Instances for benchmarking
Training iterated protocols for distillation of GHZ states with variational quantum algorithms.
This project aims to solve qubit placement problems in nearest neighbour compliance quantum circuits. We approached the problem using integer linear programming, and solve for the exact global optimal solution.
Ground State Energy of BeH2 at different bond lengths using VQE
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