A comprehensive refresher on the fundamental concepts and principles of quantum computation
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Updated
Jun 14, 2024 - Jupyter Notebook
A comprehensive refresher on the fundamental concepts and principles of quantum computation
Rna Alignment With Tree Edit Distance
My journey in Quantum Computing on an IBM Quantum Computer accessed through Cloud
reimplementing quantum algorithms
Cosmological Parameter estimation using Bayesian Machine Learning
Python implementation of 3D Zernike moments with Tensorflow
A superposition generator using PRNG to output effectively randomized qubit states.
🌊 Resource for learning waves superposition, interference and diffraction interactively!
Python implementation of 3D Zernike moments with CuPy
Superposition of n i.i.d. one dimensional point processes according to " On the Superposition of Renewal Processes" D. R. Cox and Walter L. Smith
Numerical heat transfer code for internal flows
Python implementation of 3D Zernike moments with NumPy
A course that includes topics such as an introduction to quantum computing and its applications (e.g., quantum teleportation), quantum entanglement and superposition (shown on Bernstein-Vazirani and Simon's algorithms), Grover's algorithm, the quantum Fourier transform and practical examples of its use (quantum phase estimation, Shor's algorithm).
Interactive Showcases of Quantum Tic-Tac-Toe Game and Shor's Algorithm for Integer Factorization, covering various Quantum Computing concepts like Quantum Gates, Superposition & Entanglement, Measurement & Collapse, or Quantum Fourier Transform & Phase Estimation, etc.
[QSharp] Basics of quantum computing - usage of Q# language in Azure Quantum services. An example that shows how to generate a fully random number using a qubit
Python 3 script for overlaying or superimposing two or more molecules. The overlayed / superimposed molecules can be displayed and the modified coordinates can be saved as xyz files. Coloring by atom or molecule is possible.
Solution of simple AC and DC Circuits. Electrical units & measurements. Voltage, current, impedance. Equivalent circuits. Electrical energy & power. Resistors, inductors, capacitors, phasors, filters. Introduction to analog and digital telecommunication systems. Operational amplifiers, sensors & actuators, simple controllers. Use of laboratory …
Solve pseudo-randomness utilizing Quantum Superposition. Generate true random numbers.
SuperPositioning Text to Font & Entangling to a CxHC Datagraphs
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