Description: QuantumUtils for Mathematica is a software library for quantum information scientists, facilitating symbolic and numerical calculations, with extensive documentation. Bloch Sphere Simulator of Quantum-Mechanical gates and Spintronics, Description: 3D visualization of qubits on the Bloch sphere, Description: Decomposition of unitary matrices into quantum logic circuits, Description: Quantum development environment; research, design and teaching tool for quantum computing and quantum information, Description: Visualisation of linear optics quantum computing, Description: Universal quantum computation simulator, Description: Windows-based environment for quantum computing simulation (Open Source), Description: Simulation of NMR experiments, Description: GUI program - Quantum Designer and Network Simulator, Description: QC simulator solving Schrodinger equation, Description: Quantum simulator (and graphic programming language) that uses quantum generalization of Bayesian Networks; works only on MacOS X (10.2 or later), Description: Windows-based qudit circuits simulator, part of Master's thesis, Description: Quantum circuit simulator on the basis of Q++. Description: Implementation of large, sparse Pauli operators using pairs of sets indicating where each Pauli has X and Z support. Where classical bits hold a single binary value such as a 0 or 1, a qubit can hold both values at the same time. The QX allows quantum algorithm designers to simulate the execution of their quantum circuits on a quantum computer. Description: Online quantum computer emulator that runs Shor's algorithm (up to 205 qubits) and quantum simulation algorithms. It can be used with Quantis random number generator or QRNG service as a source of randomness. Released as part of IBM's QISKit. The program can either run standalone or as a web based applet. The input of the QX simulator are quantum circuits which are described using a simple quantum assembly language (QASM). “Quantum Space, the final frontier. Description: The toolkit is intended to facilitate coding C++ numerics related to Quantum Information. The Quantum Code language allows the users to : Beside simulating error-free execution quantum circuits on a perfect quantum computer, the QX Simulator can simulate realistic noisy execution using different error models such as the depolarizing noise. Introduction My 5-qubit Quantum Computing Simulator,QCSimulator, is finally ready, and here it is! Quantum Information Programs in Mathematica, Description: Functions and other objects useful for simulating small quantum circuits, Description: Toolkit to construct, run, and research quantum Turing machines, Description: Mathematica package for doing quantum computation, Description: Package for analysing quantum states and quantum channels with Mathematica. Quantiki has a long list of qc simulators . Description: Qinf quantum information and entanglement package, Description: Routines for quantum algorithms, Description: Various routines for quantum information research, Description: Toolbox of Octave/MATLAB m-files for QC programming, Description: Simulator of a quantum computer, Description: Toolbox to simulate ion trap quantum computers, Description: Toolbox for quantum information theory and entanglement, Description: A MATLAB library for Quantum Information calculations, Description: Quantum Optics and Computation Toolbox for MATLAB, Description: MATLAB-based quantum computer simulator, Status: Complete and under continual development, Quantum Computing Functions for Matlab (QFC), Description: A library of MATLAB functions for simulating quantum computing algorithms, Description: GNU Octave package performing QC on mixed states, Description: MATLAB routines for quantum information, Description: Quantum information and entanglement package. In the absence of large physical quantum computer, accurate software simulation of quantum computers on a classical computers is required to simulate the execution of […] In the absence of large physical quantum computer, accurate software simulation of quantum computers on a classical computers is required to simulate the execution of those quantum algorithms and to study the behaviour of a quantum computer and improve its design. Description: Framework for solving open quantum systems using a wide range of master equation and stochastic methods. A quantum algorithm fed into the quantum computer is actually a string matrix. It is dedicated to the development of quantum software, training and experimentation. Description: Optimized memory usage but CPU intensive. Right at your fingertips. Description: Web based IDE and Simulator, Drag & Drop circuit builder, printable circuits, can group gates into functions. Description: Quantum assembly language with an enhanced feature set. The input of the QX simulator are quantum circuits which are described using a simple quantum assembly language (QASM). Description: Online GPU-accelerated quantum computer simulation with a simple IDE interface, its own scripting language, debugging, and 3D state visualization. Quantum OCaml Circuit Simulator is a functional approach to simulating quantum gates. Description: QuIDE is a quantum computer simulation platform written in C#. Building the circuit through a sequence of quantum gates. ProjectQ can then translate these programs to any type of back-end, be it a simulator run on a classical computer or an actual quantum chip. Description: QCGPU is a high performance, hardware accelerated quantum computer simulator written with Rust and OpenCL. This list provides an overview of available QC simulators grouped by programming language. Description: Functional language based on Scheme for expressing and simulating quantum algorithms, Description: Functional quantum programming language, Description: An embedded, scalable functional programming language for quantum computing, Simulating Quantum Circuits on a parallel machine, Description: Windows-based quantum computer parallel simulator, Description: Quantum Computing Library wrote in Haskell. Description: Library for spin decoherence implementing the cluster correlation expansion. It can be thought of as an embedded language within Haskell, and comes with functions for simulating the running of these quantum computations. The realisation of large-scale physical quantum computer appears to be challenging, alongside the efforts to design quantum computers, significant efforts are focusing on the the development of useful quantum algorithms. The Quantum Computing Playground is a browser-based quantum program simulator. Description: System for simulation of quantum computations, Description: Quantum circuit simulator and Shor's algorithm simulator written in OCaml, Description: Computer-aided proof system for quantum circuits, Description: Microsoft Research's F# based simulation platform, Description: Web based IDE and Simulator, Drag & Drop circuit builder, cross platform (Rigetti & IBM), connects to quantum computer from UI. The source code file is then used as the input of the simulator which executes its content. We made available the optimized code of the Atos Quantum Learning Machine (QLM) so you can efficiently simulate quantum circuits up to 20 qubits. Real quantum computers. QuSAnn outputs quantum circuit for doing simulated annealing on a quantum computer. It features a GPU-accelerated quantum computer with a simple IDE interface, and its own scripting language with debugging and 3D quantum state visualization features. Its capabilities and performances are unmatched on the market. Hosted at University of Patras. Also implemented in Agda. It is inspired by the Quantum Optics Toolbox for MATLAB and the Python framework QuTiP. 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