A quantum computing library
Project description
Quanthon
A minimal Python library for quantum computing, for physicists!
Installation
Using PIP:
pip3 install Quanthon
Get Started
Importing the Module
import Quanthon as qt
Initializing a Single Qubit
Initialize a single qubit by creating an instance of the Qubits
class.
qubit = qt.Qubits(1)
Applying Quantum Gates
Quanthon
supports various quantum gates like the Hadamard (H), Pauli-X (X), Pauli-Y (Y), and Pauli-Z (Z) gates.
# Apply a Hadamard gate on the first qubit
qubit.H(0)
# Apply a Pauli-X gate on the first qubit
qubit.X(0)
# Apply a Pauli-Y gate on the first qubit
qubit.Y(0)
# Apply a Pauli-Z gate on the first qubit
qubit.Z(0)
Performing Quantum Measurements
You can perform quantum measurements on your qubit system with a specific number of shots.
result = qubit.measure(n_shots=10)
Working with Multiple Qubits
Use the Qubits
class for all states.
from Quanthon import Qubits
# Initialize a 2-qubit system
two_qubits = Qubits(2)
# Initialize an n-qubit system
n = 4
n_qubits = Qubits(n)
CNOT and SWAP Operations for Multiple Qubits
Quanthon
allows you to perform CNOT and SWAP operations on multi-qubit systems.
# Perform a CNOT operation between the first and second qubit
two_qubits.CONT(0, 1)
two_qubits.SWAP(0, 1)
NEW IN VERSION 0.3.5:
- VQE now supports non-Hermitian 'Hamiltonian's, but why would you ever need it?
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