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.
Azure Quantum Development Kit, including the Q# programming language, resource estimator, and Quantum Katas
Quantum computing using rust. Efficient and a borrow-checked no cloning theorem!
A Quantum Computing Library in Rust which help deploy your emulation
A High Performance Quantum State Simulator implemented in pure Rust
PyQIR is a set of APIs for generating, parsing, and evaluating Quantum Intermediate Representation (QIR).
Hierarchical Unified Graph Representation for quantum and classical programs
Unicorn: Symbolic Execution, Bounded Model Checking, and Code Optimization of RISC-V Code using Classical Solvers and Quantum Computers
FunQy - A high-level hybrid quantum programming language
A simple, efficient, quantum computer simulator.
A Quantum Computing Machine written in Mojo
A dynamically executed quantum-classical hybrid runtime.
Quantum computing simulator in Rust
Delft Quantum & Classical simulator
Advanced quantum computation simulator
Thin and vendor agnostic layer to access, control and monitor underlying on-prem or cloud quantum computers
Performant physics-focussed quantum circuit library built in Rust
Сompiler of classical algorithms into oracles for quantum computing
Rust bindings for libquantum
Created by Richard Feynman and Yuri Manin