quantum/02_cirq.py

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import cirq
# Pick a qubit.
qubit = cirq.GridQubit(0, 0)
# Create a circuit
circuit = cirq.Circuit.from_ops(
cirq.X(qubit)**0.5, # Square root of NOT.
cirq.measure(qubit, key='m') # Measurement.
)
print("Circuit:")
print(circuit)
# Simulate the circuit several times.
simulator = cirq.Simulator()
result = simulator.run(circuit, repetitions=20)
print("Results:")
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print(result)
# ----- Tutorial
import cirq
import numpy as np
import matplotlib
# Print Google's 72-qbit Bristlecone
print(cirq.google.Bristlecone)
# Use named Qubits
a = cirq.NamedQubit("a")
b = cirq.NamedQubit("b")
c = cirq.NamedQubit("c")
ops = [cirq.H(a), cirq.H(b), cirq.CNOT(b, c), cirq.H(b)]
circuit = cirq.Circuit.from_ops(ops)
print(circuit)
for i, moment in enumerate(circuit):
print('Moment {}: {}'.format(i, moment))