Completed in the Honors Accelerated Calculus series at UW, taken with Ebru Bekyel.
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Updated
Jun 16, 2023
Quantum computing is a field of computing that uses quantum phenomena such as superposition and entanglement to perform operations on data. It is a rapidly growing field with potential applications in fields such as cryptography, chemistry, and optimization. Quantum computers can solve certain problems much faster than classical computers. Various programming languages such as Q#, Python and C++ can be used to write quantum algorithms to be run on quantum computers. The development of quantum computers is an active area of research and engineering.
Completed in the Honors Accelerated Calculus series at UW, taken with Ebru Bekyel.
This repo is for documenting my Quantum Computing learning journey using Qiskit.org tutorials which uses IBM Quantum Lab environment. I will also attach my handwritten notes and Medium blog links which are part of my submissions for #Quantum30, a quantum computing awareness initiative by Quantum Computing India
Implementing quantum algorithms with help from qiskit by IBM
Repository of the code that was used in the Quantum Project course
The repository contains Jupyter notebooks with detailed description of basic quantum protocols and algorithms, the math, circuits and quantum programs using Python.
A Simple Quantum Simulator I am working on
String search problem on quantum computer
Quantum Circuit Debugger - Extension for IBM Qiskit
My solutions for IBM Quantum Challenge Spring 2023
GPT that is powered by quantum processes.
A simulator to study leakage in restless circuit execution
A practical introduction to quantum computing: from qubits to quantum machine learning and beyond
A simple Python 3 script for introducing new users to quantum programming in the PennyLane environment. This code was developed as an introductory exercise during the "2023-11-28 Using PennyLane on Pawsey’s Setonix supercomputer" webinar tutorial.
Tutorial pdfs and Codes done in QIQT 2022
Some basic quantum computing circuits that can be run on IBM quantum computers. Written in quantum assembly (OpenQASM2.0)
An introduction to generating random numbers from quantum computing.
Quantum Computing course, Computer Science M.Sc., Ben Gurion University of the Negev, 2020
Created by Richard Feynman and Yuri Manin