Simulating observations of quantum spin with Python and Arduino accelerometer
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Updated
Feb 8, 2018 - C++
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.
Simulating observations of quantum spin with Python and Arduino accelerometer
Implementation of the Stochastic Reconfiguration algorithm on the GPU using C++/CUDA.
Cuda kernels to simulate multi-qubit gates
A quantum operator algebra domain-specific language and exact diagonalization toolkit for C++11/14/17. To cite this Original Software Publication: https://www.sciencedirect.com/science/article/pii/S2352711021001722
C++ code for simulating quantum Zeno paradox with spin in field.
My solutions to the programming projects from Jos Thijssen's "Computational Physics" textbook.
dann5.ocean version 2
Quantum Dynamics Path-Integral simulation package
Quantum-minigolf game ported to U++
Intel QS backend for DQCsim
Ultra-strong laser field rescattering
Fast and simple way to electronic structure methods.
This is the repository to gather a self-motivated open source Quantum Dynamics Simulator software written in C++, for research and educational purposes.
Port form svn repo of DiagHam from http://www.nick-ux.org/diagham/
Remote and local execution of QASM2 programs.
An Open Source, GPU Accelerated, Quantum Computer Simulator
A C++ header library for the simulation of finite state quantum systems. The library provides an easy-to-use interface for the creation of a master equation by harnessing graph theory. It supports multiple numerical tools to use the master equation
Created by Richard Feynman and Yuri Manin