Questions tagged [quantum-gate]
For questions regarding usage, performance, implementation, application or theory related to quantum gates.
1,187
questions
3
votes
1
answer
16
views
Can W gate be written only using H,T?
I want to write the decompose the gate $W=(X+Y)/\sqrt{2}$ using only $H$ and $T$ (and all the derived Clifford gates basically). I know $H=(X+Z)/\sqrt{2}$ is it possible to obtain exactly $W$ from ...
- 1,015
0
votes
2
answers
25
views
Some of the qubits are not evaluated at Qiskit
When I implement a 3-qubit circuit in Qiskit, circuit is executed smoothly at the simulator but counts I read back as results does not contain all of the qubits that are defined and included in the ...
-2
votes
0
answers
80
views
PhD topics in quantum computing [closed]
I am looking for PhD topics in quantum computing related to computer Engineering background (I don't have a background in physics).
I tried searching for Machine learning, neural networks and Quantum ...
- 181
1
vote
1
answer
52
views
Qiskit: How to implement a classical function?
I'm quite lost, I have to implement the following function with qiskit
$$
f(x,y,z) = (\lnot x \land y \land z) \lor (x \land \lnot y \land z)
$$
but how can we do that ? I don't understand how to do ...
- 87
0
votes
0
answers
21
views
Are there hardware platforms that natively implement parametric two qubit gates?
For example, is it possible to implement RXX gate with an arbitrary angle on an ion computer in a single native operation? The RXX gate with an arbitrary angle can be decomposed into two RXX gates ...
- 891
1
vote
0
answers
80
views
Reshaping the 4x4 CNOT gate into 2x2x2x2 in a tensor network
I'm learning how to perform tensor network contraction for simulating a quantum circuit by looking at the documentation for the JET simulator: link. Specifically, I'm trying to do all the calculations ...
- 11
1
vote
2
answers
48
views
How to calculate eigenvalues by phase estimation?
I have been learning Quantum PCA recently but I came across a problem. How can I get the eigenvalues of a matrix by phase estimation? And what on what kind of matrix can we implement this algorithm?(...
0
votes
0
answers
43
views
What role does Landauer's principle play in quantum reverisbility?
In section 3.2.5 of Nielsen and Chuang (starting page 153) they talk about Landauer’s principle, where they discuss the lower bound on the thermodynamic cost of erasing information.
In irreversible ...
0
votes
1
answer
22
views
Converting data into a SHA256 hash using Qiskit quantum computer
I was wondering how can we convert data into a hash using Qiskit quantum computer? e.g, this code below will generate a SHA256 hash based on random data.
...
- 113
3
votes
2
answers
74
views
Is a "Bell measurement" equivalent to a projective measurement in a different basis?
Let \begin{align} H = \frac{1}{\sqrt{2}}\begin{bmatrix} 1 & 1 \\ 1 & -1\end{bmatrix}\in M_2(\mathbb C), \quad \mathrm{CNOT} = \begin{bmatrix} 1 & 0 & 0 & 0 \\ 0 & 1 & 0 &...
0
votes
1
answer
30
views
How to calculate parameters of U3 gate from a certain quantum state?
I'm trying to do Quantum PCA but I came across a problem. I now have a quantum state, say $\frac{|00\rangle+|01\rangle+|11\rangle}{\sqrt{3}}$ and I want to know how to prepare it from two $|0\rangle$ ...
2
votes
2
answers
130
views
Why can the CNOT representation $e^{i\frac{\pi}{4}\left(I-Z\right)\otimes\left(I-X\right)}$ hardly be found in books?
The CNOT gate is usually written as
$|0\rangle\langle0|\otimes I + 1\rangle\langle1|\otimes X$
(with $X,Y,Z$ being the Pauli Basis and $I$ the Identity).
I have yet to stumble across the ...
- 121
1
vote
1
answer
55
views
Computing characteristic polynomial of unitary operation
I am trying to replicate a calculation from the linked paper but I am unsure if I understand their math. A locally invariant function defined as the characteristic polynomial is as follows:
$$F_U(t) = ...
0
votes
1
answer
44
views
How to retrieve a quantum state after passing through a series of quantum gates?
Consider a qubit
$$\left| \psi \right> = (\alpha_1 + i\alpha_2 ) \left|0\right> + (\beta_1 + i\beta_2 )\left|1\right>$$
Now if i pass this through a series of quantum gates or any typical ...
- 47
1
vote
2
answers
48
views
Can I Convert a Qubit in complex form to polar form?
Let's say I have a qubit
$$\left| \psi \right> = (\alpha_1 + i\alpha_2 ) \left|0\right> + (\beta_1 + i\beta_2 )\left|1\right>$$
Can I able convert this to polar form
$$|\psi \rangle = \cos\...
- 47
1
vote
1
answer
33
views
How does an $\sqrt{X}$ error propagates through an $T$ gate?
I wonder whether there is a compact way of describing a noise $\sqrt{X}$ propagating through a $T$ gate. Possibly in terms of Pauli and/or Clifford operators.
- 741
1
vote
2
answers
45
views
Multi qubit states and the CNOT gate
I'm stuck on this passage from a book:
Suppose we try to copy a qubit in the unknown state $|ψ\rangle =
a|0\rangle + b|1\rangle$ in the same manner by using a $\text{CNOT}$
gate. The input state of ...
1
vote
1
answer
50
views
Can you construct a 3-qubit XOR state?
I'm wondering if it is possible to build a 3-qubit quantum circuit that creates the following pure state: $$\frac{1}{2}\left(|000\rangle+|011\rangle+|101\rangle+|110\rangle\right)=\frac{1}{2}\left[1,0,...
- 77
2
votes
1
answer
40
views
How does the Pauli Y gate act in the $|+\rangle, |-\rangle$ basis?
The X gate in the $|+\rangle$, $|-\rangle$ basis becomes the Z gate and vice versa.
What is the Pauli Y gate as a matrix transformation in the $|+\rangle$, $|-\rangle$ basis?
0
votes
1
answer
83
views
Is there the number of CNOT restriction?
I know that there is connectivity restriction when implementing physical CNOT gate.
But, I wonder if there is a limit to the number of physical CNOT gates that can be performed at the same time.
For ...
- 15
1
vote
1
answer
34
views
I have question about cost of 'modular multiplication unitary' in Shor's algorithm
Here modular multiplication unitary means $U_a : |s\rangle \to|as\mod N\rangle$.
My main question is, can the modular multiplication unitary $U_a$ can be constructed in time polynomial in the number ...
- 11
1
vote
0
answers
38
views
Slight issue with QFTing two qubits
Let's consider two qubits and the corresponding computational basis $\{|0\rangle\, |1\rangle, |2\rangle, |3\rangle\}$. In binary form, any of these vectors can also be written as a product $|x_1\...
1
vote
0
answers
35
views
How to simulate $H(\theta) = B(\sin\theta S_1^x +\cos\theta S_1^z +\sin\theta S_2^x +\cos\theta S_2^z)+aS_2^zI_z$ on IBM Qiskit
I am trying to simulate this Hamiltonian on IBM Qiskit, for varying values of $\theta$:
$H(\theta) = B(\sin\theta S_1^x +\cos\theta S_1^z +\sin\theta S_2^x +\cos\theta S_2^z)+aS_2^zI_z$
Where S is ...
3
votes
0
answers
79
views
What is the correct name of this quantum gate? Possibly state control gate
Let $\vec v \in \mathbb{C}^2 $ be the following quantum state:
$$
\vec v = \frac{1}{\sqrt{2}}\begin{bmatrix}
v_{1} \\
v_{2} \\
\end{bmatrix},\space \lvert v_1 \rvert = 1,...
- 31
1
vote
1
answer
53
views
math behind rotation gate
$R_Z(\theta) = e^{-i\frac{\theta}{2}Z}$ and $R_{ZX}(\theta) = e^{-i\frac{\theta}{2}XZ}$
My question is, why is the rotation gate defined in an exponential format? Where does the $\frac{1}{2}$ come ...
- 1,223
1
vote
1
answer
27
views
Gate times for photonic quantum computers
I am trying to understand the landscape of one- and two-qubit gate times for various quantum computing architectures. It is not so hard to find gate times for various gates such as Hadamard, CNOT and ...
- 409
5
votes
1
answer
745
views
Is 60% accuracy high when calculating 1+1 on a quantum computer?
A financial firm has criticized the quantum computer of a company called IonQ.
Part of the content is that IonQ's quantum computer is only 60% accurate for 1+1 calculations, and only 50% for 2+3 ...
- 51
1
vote
1
answer
54
views
Counting the number of CCX and CX gates in controlled modular addition
If we do a controlled modular addition of an adder with 2n ccx and 4n cx gates for example the CDKMRippleCarryAdder, what will be the resultant count of ccx and cx ...
- 13
2
votes
0
answers
44
views
How do I generate gates for qudits with $d=4$?
So I was working on a project with qudits (specifically d = 4) and came across a problem. How do I generate gates for these? I can construct Hadamard and X gates for these, but how does one approach ...
- 33
2
votes
1
answer
40
views
What is the average amount of gates needed to implement a random Clifford gate?
Given a Clifford gate acting on $n$ qubits is implemented using its generators, what is the average number of gates needed to implement a random Clifford gate as a function of $n$?
- 1,037
0
votes
2
answers
57
views
Create a 2-qubit quantum circuit with given state probabilities
Let's say we are given two probability values $p_1 > 0$ and $p_2 > 0$, with $p_1+p_2 \leq 1$ but not necessarily equals to $1$. We are asked to create a 2-qubit quantum circuit with state $|01\...
- 160
0
votes
2
answers
75
views
Rxx gate as a set of rotations
I'm trying to represent Rxx gate as a set of physical rotations of two qubits in 3D space (or as rotations of Bloch Spheres that is the same). In some simple cases it works well:
If q0 is in the ...
- 1
1
vote
1
answer
45
views
Sending messages via CNOT gates
Consider a situation in which each of Alice, Bob and Charlie holds a qubit,
where the three qubits are acted on by a 3-qubit gate $U$. Assume that the gate $U$ can
be implemented by first performing a ...
- 283
0
votes
1
answer
15
views
Qiskit library.gaussian() does not accept parametric expression
I'm trying to build a gaussian pulse in qiskit where I keep the amplitude as a parameter but for the followig code
...
- 1
0
votes
1
answer
45
views
Quantum gates defined in SpinQ desktop computers
There is manufacturer of desktop quantum computers:
https://www.spinquanta.com/products.
There are few models on the market:
Gemini
Gemini-Mini
Triangulum
Lyra
Does anyone know where to find quantum ...
- 354
1
vote
2
answers
314
views
Can anybody explain the following circuit?
I think I understand what it does. But i can't agree with output for sertain inputs. For example: if a=1 and b=1 then how the output on 4 line could be xor(a, b). Because as far as I know xor(1,1)=0 ...
- 21
0
votes
1
answer
30
views
Generating a random 32-byte hex integer using Qiskit
Hello I posted here yesterday about generating random 16 digits using Qiskit, and a gentle guy helped me but how about a string? How can I generate random 256 bit key in hex format in a superposition ...
- 113
2
votes
1
answer
40
views
Question about mock backends!
I recently learned about the mock backends or the fake backends provided by Qiskit and I was wondering, do they behave the same way IBMQ systems backends like (ibmq_brooklyn)? also, can I depend on ...
- 113
0
votes
1
answer
46
views
Generating a random 16-digits in a superposition state using Qiskit
Im trying to create a script using Qiskit for a days but somehow i couldn't seem to get it done!! Im new to QuantumComputing, so pardon me if i don't explain something properly. I need to create a ...
- 113
2
votes
1
answer
39
views
Quantum gates for more than two basis states
Lets say I have a time dependent hamiltonian of the form $$H(t) = H_0 + f(t) H_{drive}$$ (where $H_0$ may represent the hamiltonian for a superconducting qubit) and I want to find the optimal pulse $f(...
- 21
2
votes
1
answer
554
views
How does a quantum computer find the correct password faster than classical computers using brute-force?
I didn't get this part right! For example, we have an online box with a 16-digit password, and we don't know what the password is! How can a quantum computer find the correct password faster than ...
- 113
1
vote
1
answer
58
views
Grover's Search Number of iterations for M > 1
In Grover's Search algorithm, how to determine the number of iterations for any $M$ such that $1 < M < N/2$?
The calculations given in the Nielsen and Chuang book say that $R \leq \frac{\pi}{4} ...
4
votes
1
answer
62
views
There exists an efficient gate that swaps values of different superposition kets?
Is there an efficient gate that swaps values of different superposition kets?
Let $ \alpha_i, \beta_i $ be string in $ \{0,1\}^n$, I'm wondering if there are a known results about the existence of ...
- 41
2
votes
2
answers
65
views
IBM Quantum Experiment CNOT
I have a beginner question regarding CNOT-Gates on IBM Quantum.
Assuming the following simple circuit:
...
- 81
1
vote
1
answer
41
views
What is the time overhead for fault-tolerant gate teleportation?
The gate teleportation protocol (https://arxiv.org/abs/quant-ph/9908010) has a step where it utilizes cat state measurement of transversal operators. Since cat states can not detect phase errors it is ...
- 236
4
votes
2
answers
145
views
Is there a way to convert a superposition $\sum_i a_i |x_i\rangle$ into $\sum_i |a_i,x_i\rangle$?
I am wondering if there is a way to convert a superposition $$\left|\phi\right>=\sum_{i}a_i\left|x_i\right>$$ into $$\left|\phi'\right>=\frac{1}{|{\rm norm}|}\sum_{i}\left|a_i,x_i\right>,$$...
- 195
2
votes
0
answers
17
views
What is a realistic model for simulating physical tampering of a channel? (ex: nearby vibrations)
Somewhat related to this question.
Imagine a fully functioning quantum network, where qubits are transported via fiber optic cable. If vibrations were to physically tamper with a channel in such a ...
- 1,037
2
votes
2
answers
87
views
Why does gate teleportation allow to implement nonlocal operations via local ones?
In (Gottesman and Chuang 1999), when discussing quantum gate teleportation, they mention how it can be used to implement nonlocal gates such as a CNOT, by only using (classically controlled) local ...
glS♦
- 18.2k
2
votes
1
answer
42
views
How does quantum gate teleportation differ from state teleportation?
As described e.g. in this post, quantum gate teleportation can be framed as a variation of quantum state teleportation where a gate is applied beforehand on the receiver, and this results in the final ...
glS♦
- 18.2k
1
vote
1
answer
41
views
Manually calculating quantum circuit with custom gate
I am trying to calculate the state of this Quirk circuit by hand:
where U is a custom gate with 2x2 matrix:
From what I've read, I should be able to calculate the resultant amplitudes as:
(U⊗I⊗I).(...
