An efficient Python-based framework for implementing qubit subspace methods, reducing the resource requirements for near-term quantum simulations.
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Updated
Sep 9, 2024 - Python
An efficient Python-based framework for implementing qubit subspace methods, reducing the resource requirements for near-term quantum simulations.
A set of simple tutorial programs for quantum computing including a game, Fly Unicorn.
Quantum Computing Basics Using Python projectq
Python script files I used for the course
plot Bloch Sphere Binary Tree
Simple and lightweight Quantum Computing simulator built with python3 for educational purposes
Various calculators and classifiers for n-qubit states
A superposition generator using PRNG to output effectively randomized qubit states.
Implementing the Grover and Deutsch_Jozsa quantum search algorithms, best in world!
Python package containing Pauli Twirling pairs for common two-qubit gates, functions to generate Pauli Twirling pairs for additional gates, and twirling implementations
Automatic calibrations for superconducting quantum circuits
New software stack for controlling and running experiments
⚛️ Quantum computing research with AI and traditional computers.
Just a simple qubits interaction simulation
A minimal calculator and simulator for single-qubit quantum programs
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