💾 Archived View for youshitsune.tech › posts › bernstein-vazirani-algorithm-implementation-in-qiskit… captured on 2023-07-22 at 16:23:08. Gemini links have been rewritten to link to archived content
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It is a restricted version of the Deutsch-Jozsa algorithm where instead of distinguishing between two different classes of functions, it tries to learn a string encoded in a function.
Here is implementation for Bernstein-Vaziarini algorithm:
from qiskit import * %matplotlib inline from qiskit.tools.visualization import plot_histogram
num = '101001' circuit = QuantumCircuit(len(num)+1, len(num)) circuit.h(range(len(num))) circuit.x(len(num)) circuit.h(len(num)) circuit.barrier()
<qiskit.circuit.instructionset.InstructionSet at 0x6370a60b4e80>
for i, val in enumerate(reversed(num)):
if val == "1":
circuit.cx(i,6)
circuit.barrier() circuit.h(range(len(num)))
<qiskit.circuit.instructionset.InstructionSet at 0x6370a60b4e20>
circuit.measure(range(len(num)), range(len(num)))
<qiskit.circuit.instructionset.InstructionSet at 0x6370e006d5a0>
sim = Aer.get_backend('qasm_simulator')
result = execute(circuit, sim, shots = 1).result()
counts = result.get_counts()
print(counts)
{'101001': 1}