Scientific Toolkit for Quantum Computing
Project description
skq
Scientific Toolkit for Quantum Computing
This library is used in the q4p (Quantum Computing for Programmers) course.
NOTE: This library is developed for educational purposes. While we strive for correctness of everything, the code is provided as is and not guaranteed to be bug-free. For sensitive applications make sure you check computations.
Why SKQ?
- Exploration: Play with fundamental quantum building blocks using NumPy.
- Education: Learn quantum computing concepts and algorithms.
- Integration: Combine classical components with quantum components.
- Democratize quantum for Python programmers and data scientists: Develop quantum algorithms in your favorite environment and easily export to your favorite quantum computing platform for running on real quantum hardware.
Install
pip install skq
Quickstart
Circuit Conversion
Run this code snippet to initialize a Bell State and convert to Qiskit and OpenQASM.
from skq.circuits.entangled_states import BellStates
# Initialize Bell State skq Circuit
circuit = BellStates().get_bell_state(1)
# Conversion to Qiskit
qiskit_circuit = circuit.convert(framework="qiskit")
qiskit_circuit.draw()
# ┌───┐
# q_0: ┤ H ├──■──
# ├───┤┌─┴─┐
# q_1: ┤ I ├┤ X ├
# └───┘└───┘
# Conversion to OpenQASM
qasm_circuit = circuit.convert(framework="qasm")
print(qasm_circuit)
# h q[0];
# id q[1];
# cx q[0], q[1];
Circuits from scratch
You can also build your own custom circuits from scratch using individual gates.
from skq.gates import H, I, CX
from skq.circuits import Concat, Circuit
H() # Hadamard gate (NumPy array)
# H([[ 0.70710678+0.j, 0.70710678+0.j],
# [ 0.70710678+0.j, -0.70710678+0.j]])
I() # Identity gate (NumPy array)
# I([[1.+0.j, 0.+0.j],
# [0.+0.j, 1.+0.j]])
CX() # CNOT gate (NumPy array)
# CX([[1.+0.j, 0.+0.j, 0.+0.j, 0.+0.j],
# [0.+0.j, 1.+0.j, 0.+0.j, 0.+0.j],
# [0.+0.j, 0.+0.j, 0.+0.j, 1.+0.j],
# [0.+0.j, 0.+0.j, 1.+0.j, 0.+0.j]])
# Initialize Bell State skq Circuit
circuit = Circuit([Concat([H(), I()]), CX()])
# Simulate circuit classically
state = np.array([1, 0, 0, 0]) # |00> state
circuit(state)
# array([0.70710678+0.j, 0, 0, 0.70710678+0.j])
# Conversion to Qiskit
qiskit_circuit = circuit.convert(framework="qiskit")
qiskit_circuit.draw()
# ┌───┐
# q_0: ┤ H ├──■──
# ├───┤┌─┴─┐
# q_1: ┤ I ├┤ X ├
# └───┘└───┘
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