A collection of interactive notebooks to explain concepts of quantum mechanics and related topics
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Updated
May 22, 2024 - Jupyter Notebook
A collection of interactive notebooks to explain concepts of quantum mechanics and related topics
Collection of different kernels related to Machine Learning, NLP, Deep Learning, AI and cryptocurrencies..
The repository contains Jupyter notebooks with detailed description of basic quantum protocols and algorithms, the math, circuits and quantum programs using Python.
A simulation of the BB84 protocol in a Jupyter Notebook using the code from https://qiskit.org/textbook/ch-algorithms/quantum-key-distribution.html. Protocol steps until key sifting have been implemented. Error correction & parameter estimation were not executed.
Jupyter Python notebooks for teaching Quantum Mechanics
MIT Quantum Mechanics Class Notes
This is series of jupyter Notebooks explaining Classical and Quantum Game Theory
Jupyter Notebooks that demonstrate SymPy's symbolic quantum mechanics package.
A collection of Jupyter Notebooks with explanations, insights, tutorials, exercises and showing how to use the Qiskrypt software suite, built using the IBMβs open-source Software Development Kit for quantum computing Qiskit. π π¨βπ«
Dissertation PDF and calculations notebooks on Jupyter and Julia relating the work of my PhD (2016-2020)
βοΈ π₯ βοΈ A project based in Quantum Computing. This project was built using IBM Q Experience/QisKit (Jupyter Notebook/Python Environment Framework from IBM), PyQuil (Python Environment Framework from Rigetti Computing/Rigetti Forest SDK), ProjectQ (Python Environment Open-Source Framework from ETH Zurich), Q# (Q Sharp Programming Language from Miβ¦
π π π A set of articles about Quantum Harmonic Oscillator completely writen in Jupyter Notebook
Review of basic quantum mechanics using an interactive Jupyter (Python) notebook
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