Quplexity is a blazingly fast and lightweight application for Simulating Quantum Computer logic and circuits on traditional hardware.
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Updated
Jun 30, 2024 - C++
Quplexity is a blazingly fast and lightweight application for Simulating Quantum Computer logic and circuits on traditional hardware.
A place to stash my quantum computing experiments
Clifford circuits, graph states, and other quantum Stabilizer formalism tools.
Comprehensive, GPU accelerated framework for developing universal virtual quantum processors
Tools to aid in simulating and fabricating superconducting quantum devices
A collection of easy to learn and practical Qiskit tutorials.
A puzzle/construction game about quantum computing.
A superposition generator using PRNG to output effectively randomized qubit states.
A Julia package for drawing quantum circuits with the quantikz tex macros.
KLayout Python library for integrated quantum circuit design.
A comprehensive refresher on the fundamental concepts and principles of quantum computation
Core Idea: We want the AI to formulate and test hypotheses about quantum phenomena, guided by principles of quantum mechanics.
McGuffin's Useless Quantum Circuit Simulator
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.
Qx86 is an intel 8080/Z80 emulator written for IBMs Quantum Computers
MATLAB examples, functions and otherwise helpful material using the MATLAB Support Package for Quantum Computing
Here you can get all the Quantum Machine learning Basics, Algorithms ,Study Materials ,Projects and the descriptions of the projects around the web
An efficient Python-based framework for implementing qubit subspace methods, reducing the resource requirements for near-term quantum simulations.
From Qiskit Metal to pattern generation to real nanofabrication demo. Here, quantum devices on a chip are patterned via direct-write electron-beam lithography in a nanofabrication facility. Formed & written by Onri Jay Benally, an Indigenous American quantum hardware engineer.
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