Question: # Importing the qiskit module from qiskit import * # Defining input, output and scratch qubits x = # number of input qubits y2 =
# Importing the qiskit module
from qiskit import *
# Defining input, output and scratch qubits
x = # number of input qubits
y2 = # number of output qubit
s2 = # number of scratch qubit
# Defining Quantum Circuit with the given circuits
def Circuit_2(In,Ou,Sc):
if Sc != 0:
# initiating required qubits
X = QuantumRegister(In, 'input')
Y = QuantumRegister(Ou, 'output')
S = QuantumRegister(Sc, 'scratch')
# creating circuit with above qubits
Circ = QuantumCircuit(X,Y,S)
else:
# initiating required qubits
X = QuantumRegister(In, 'input')
Y= QuantumRegister(Ou, 'output')
# creating circuit with above qubits
Circ = QuantumCircuit(X,Y)
##### Create you circuit below #########
########################################
# Uncomment to draw quantum circuit
# display(Circ.draw('mpl'))
# Transpiling the circuit into u, cnot
Circ = transpile(Circ, basis_gates=['u3','cx'])
# Uncomment to draw transpiled circuit
# display(Circ.draw('mpl'))
return Circ
qc_1b = Circuit_2(x,y2,s2)
please complete the (#) with python code
b) Circuit for j = 2 |x,0,0) => eiO2(x)|x, y2(x), 0) b) Circuit for j = 2 |x,0,0) => eiO2(x)|x, y2(x), 0)
Step by Step Solution
There are 3 Steps involved in it
1 Expert Approved Answer
Step: 1 Unlock
Question Has Been Solved by an Expert!
Get step-by-step solutions from verified subject matter experts
Step: 2 Unlock
Step: 3 Unlock
Study Help