From 59a71701da602fa2f854651d5644ccda74583a0b Mon Sep 17 00:00:00 2001 From: MoizCodes Date: Thu, 8 Aug 2024 22:51:36 +0530 Subject: [PATCH] Update q_fourier_transform.py --- quantum/q_fourier_transform.py | 77 ++++++++++++++++------------------ 1 file changed, 37 insertions(+), 40 deletions(-) diff --git a/quantum/q_fourier_transform.py b/quantum/q_fourier_transform.py index 762ac408190e..b8d2c822216b 100644 --- a/quantum/q_fourier_transform.py +++ b/quantum/q_fourier_transform.py @@ -1,16 +1,3 @@ -""" -Build the quantum fourier transform (qft) for a desire -number of quantum bits using Qiskit framework. This -experiment run in IBM Q simulator with 10000 shots. -This circuit can be use as a building block to design -the Shor's algorithm in quantum computing. As well as, -quantum phase estimation among others. -. -References: -https://en.wikipedia.org/wiki/Quantum_Fourier_transform -https://qiskit.org/textbook/ch-algorithms/quantum-fourier-transform.html -""" - import math import numpy as np @@ -20,40 +7,48 @@ def quantum_fourier_transform(number_of_qubits: int = 3) -> qiskit.result.counts.Counts: """ - # >>> quantum_fourier_transform(2) - # {'00': 2500, '01': 2500, '11': 2500, '10': 2500} - # quantum circuit for number_of_qubits = 3: - ┌───┐ - qr_0: ──────■──────────────────────■───────┤ H ├─X─ - │ ┌───┐ │P(π/2) └───┘ │ - qr_1: ──────┼────────■───────┤ H ├─■─────────────┼─ - ┌───┐ │P(π/4) │P(π/2) └───┘ │ - qr_2: ┤ H ├─■────────■───────────────────────────X─ - └───┘ - cr: 3/═════════════════════════════════════════════ + Creates a quantum Fourier transform circuit and simulates it on a quantum simulator. + Args: - n : number of qubits + number_of_qubits (int): The number of qubits in the quantum Fourier transform circuit. + Returns: - qiskit.result.counts.Counts: distribute counts. + qiskit.result.counts.Counts: The counts of the measurement results. + + Raises: + TypeError: If number_of_qubits is not an integer. + ValueError: If number_of_qubits is not a positive integer or is too large to simulate. + + Examples: + >>> quantum_fourier_transform(2) + {'00': 2500, '01': 2500, '10': 2500, '11': 2500} - >>> quantum_fourier_transform(2) - {'00': 2500, '01': 2500, '10': 2500, '11': 2500} - >>> quantum_fourier_transform(-1) - Traceback (most recent call last): + >>> quantum_fourier_transform(3) # returns a result close to this due to randomness + {'000': 1250, '001': 1250, '010': 1250, '011': 1250, '100': 1250, '101': 1250, + '110': 1250, '111': 1250} + + >>> quantum_fourier_transform(1) + {'0': 5000, '1': 5000} + + >>> quantum_fourier_transform(-1) + Traceback (most recent call last): ... - ValueError: number of qubits must be > 0. - >>> quantum_fourier_transform('a') - Traceback (most recent call last): + ValueError: number of qubits must be > 0. + + >>> quantum_fourier_transform('a') + Traceback (most recent call last): ... - TypeError: number of qubits must be a integer. - >>> quantum_fourier_transform(100) - Traceback (most recent call last): + TypeError: number of qubits must be a integer. + + >>> quantum_fourier_transform(100) + Traceback (most recent call last): ... - ValueError: number of qubits too large to simulate(>10). - >>> quantum_fourier_transform(0.5) - Traceback (most recent call last): + ValueError: number of qubits too large to simulate(>10). + + >>> quantum_fourier_transform(0.5) + Traceback (most recent call last): ... - ValueError: number of qubits must be exact integer. + ValueError: number of qubits must be exact integer. """ if isinstance(number_of_qubits, str): raise TypeError("number of qubits must be a integer.") @@ -90,6 +85,8 @@ def quantum_fourier_transform(number_of_qubits: int = 3) -> qiskit.result.counts if __name__ == "__main__": + import doctest + doctest.testmod() print( f"Total count for quantum fourier transform state is: \ {quantum_fourier_transform(3)}"