Cálculo cuántico
El paquete de soporte de MATLAB® para cálculo cuántico permite prototipar algoritmos cuánticos basados en puertas. Puede combinar puertas cuánticas en un circuito cuántico, simular circuitos en su ordenador local y ejecutar circuitos en hardware remoto utilizando Amazon® Web Services (AWS®).
Para instalar MATLAB Support Package for Quantum Computing, localice el complemento en el Explorador de complementos usando las instrucciones en Obtener y administrar complementos.
Clases
quantumCircuit | Quantum computing circuit (desde R2023a) |
quantum.gate.SimpleGate | Simple gate for quantum computing (desde R2023a) |
quantum.gate.CompositeGate | Composite gate for quantum computing (desde R2023a) |
quantum.gate.QuantumState | State of qubits in quantum circuit (desde R2023a) |
quantum.gate.QuantumMeasurement | Measurement result of quantum circuit (desde R2023a) |
quantum.backend.QuantumDeviceAWS | Quantum device available through AWS (desde R2023a) |
quantum.backend.QuantumTaskAWS | Task sent to AWS for execution on quantum device (desde R2023a) |
Funciones
Temas
- Introduction to Quantum Computing
This topic contains background information about qubits, quantum gates, and quantum circuits.
- Types of Quantum Gates
This topic describes the different types of quantum gates to build quantum algorithms.
- Local Quantum State Simulation
This topic describes how to simulate a quantum circuit locally and analyze the simulation results.
- Run Quantum Circuit on Hardware Using AWS
This topic describes how to run quantum circuits on remote hardware using Amazon Web Services.
- Graph Coloring with Grover's Algorithm
This example shows how to use Grover's algorithm on a quantum computer to solve graph coloring problems.