Quantum Circuits Compilation PDF

Summary

This document contains questions related to quantum circuits, architecture and mapping. The problems cover verification of quantum circuits and involve calculations and problem-solving. The provided text focuses on mapping quantum circuits to quantum architectures, and the various computational steps needed for this task.

Full Transcript

Problem 4 Compilation of Quantum Circuits (31 credits)
Consider the following quantum computer architecture A :

Q4

Q0 Q3

Q5

Q1 Q2

0 a) Which of the following pairs of qubits can natively interact on this architecture?
1
2
3
(1, 3) (2, 5) (3, 4)
A(1, 2) (0, 5) (0, 2)

b) Which of the following circuits can be mapped to the architecture A without adding any SWAP gates?
0
1 q3 q2 q3 q3
2 q2 q1 q2 q2
3 q1 q0 q1 q1
4 q0 q0 q0
5
6
To this end, build an interaction graph out of all gates for each circuit. Then try to fit that graph to the
7
8
architecture.

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III 0 II
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0 0 0 0
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Suberchitecture

011 8 0 0

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0 0
059 and 0 0 0 0
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c) Consider the circuit(s) from Problem b) that could not be perfectly mapped to the architecture. Determine 0
a suitable mapping for these circuits by choosing an initial layout and inserting SWAP gates to satisfy the 1
restricted connectivity. 2
3
4
5

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d) Can the mapping of any of these circuits be improved by considering more than four qubits on the 0
architecture? If yes, show the improved mapping. If no, give an argument why. 1
2
3

273
4
5
6

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– Page 7 / 12 –
0 e) Given the following quantum circuit G :
1
2 q1 H H H
3
4 q0 X H Z Z H X
5
6
Your goal is to simplify the circuit as much as possible based on the following quantum circuit identities:
7
8
I H X Z H

X X H Y Y H

Y Y H Z X H

© Z Z S X © X S† © H H
Z Z
H H S Y Y S† ©
H H
S S† S Z S†

S† S S† Z S H H X X

Assume that a CNOT gate has cost 10, while all single-qubit gates have cost 1. What is the minimal cost for
realizing G ? Make sure to document every step in your simplification.

22 11 31 13

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LET
To

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 Problem 5 Verification of Quantum Circuits (14 credits)

a) Verify the equivalence of the following two circuits G and G Õ by showing that both circuits act the same on 0
all possible computational basis states |i Í = |000Í ,... , |111Í. 1
2
q2 q2 3
q1 q1 4
q0 q0 5
6
7
Remember that the CNOT gate flips the state of the target qubit whenever the control qubit is in state |1Í.
8

Input G GÕ
|q2 q1 q0 Í g0 g0Õ g1Õ g2Õ g3Õ
|000Í 10007 10007 10007 10007 10007
|001Í 10077 10017 10017 10017 10017
|010Í 10107 1011710117 10 1 0710 107
|011Í 1011 10107 10107 1011710117
|100Í 11017 11007 11107
|101Í 1111711 017
1100 1107 11171110711 007
|110Í 11117 11117 10171101711 117
|111Í 1110711107 110071100711 107

000 on one on no ton the inn

8 0 0 0 0 0 0 0

a o o

0 0 1 0 0 0 0 o

1000
1
11
0 0 0 0 0 0
u
ii ns
0 0 0 0 1 0 0 0 IN
0 0 0
0
0 0 0 0 0 A 0

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