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5 hours later…
5:44 AM
1 hour later…
7:28 AM
This is an active area of research, so nobody really knows the answer. (Although I'm willing to be pleasantly surprised if someone does give you a succinct definitive answer here.) — dlyongemallo 21 mins ago
3 hours later…
10:23 AM
please stick to a single question per post. This makes it easier to give good quality answers and generally improves the reusability of the posts — glS 19 mins ago
if you are referring to the description given in pag.46, it says "In the first step, one’s classical computer converts the raw data vectors into a covariance matrix Σ, then normalizes this matrix to form ρ = Σ/Tr(Σ), then purifies it to make a pure state |ψi$\rangle$, and finally computes the unitary Uprep needed to prepare |ψi from a pair of qubits each initially in the |0i state.". So are you asking what does it mean to purity a state? — glS 23 mins ago
@BhargavRao gut be more like media.tenor.com/images/8863aacb5c27c885ba8913035583a766/… (also see github.com/SOBotics/Guttenberg/issues/204)
1 hour later…
12:03 PM
Amplitude amplification can be performed exactly when the success probability is known. See Section 2.1 from "Quantum amplitude amplification and estimation" by Brassard et al. — smapers 10 mins ago
2 hours later…
2:33 PM
Hi and welcome to Quantum Computing SE. What do you mean by "maximize the pairs of people". — Martin Vesely 11 mins ago
2:58 PM
You need the latest master branch: github.com/Qiskit/qiskit-terra/archive/master.zip — Paul Nation 14 mins ago
I am afraid it is not of much help. I tried running it, but there is a NoModuleError, because of the second line. I am unable to implement it using circuit composer — Hridey Narula 17 mins ago
okay, but what is the use of CNOT? Also, according to you, we are just pretending a superposition (pure) state as mixed? — Hridey Narula 24 mins ago
3:48 PM
yeah exactly, I thought it would be something like amplitude-encoding so that $\rho_{11} = \alpha_{11}$ for Quantum state $| 00 \rangle$ and so on. But I think this is wrong. So I need a bit help here. — rexrayne 2 mins ago
4:38 PM
you can try to have a look at the Wikipedia page to know what purification means. In a few words, it means to find a pure state whose reduced density matrix equals your $\rho$. — glS 3 mins ago
5:03 PM
This is a very nice answer but could I ask why the surface code only encodes 2 logical qubits? I could not quite follow the argument you made to show that the stabilizer relations reduced the dimension of the Hilbert space to 4. — user1936752 9 mins ago
the optimal form to transport the pair of people using quantum computation and the 2 taxis — Jose Javier Garcia 13 mins ago
6:18 PM
Thank you for this paper. I tried to comprehend this as well, but I have a problem with equation 16. I used the formula: $\mathrm{e}^{2\pi i \rho}$ but I calculated the values: $[-0.6340 - 0.7733i -0.4751 + 0.8799i; -0.4751 + 0.8799i -0.6340 + 0.7733i]$ with matlab. Did I miss something? I didn´t found something about this in the thread you linked. — rexrayne 10 mins ago
7:08 PM
It seems to me obvious, put person A and B to one taxi and person C to second one. I do not see need for quantum computer here. In case there are more pairs, I would use binary assignment problem and maximized objective function on quantum annealer, for example. — Martin Vesely 22 mins ago
7:58 PM
First of all, did you use function exp or expm? Because expm returns matrix exponential. Exp is standard exponential function applied on each elements separately. Moreover, I also calculated matrix exponential in MatLab and it differed from the one in paper by global phase (i.e. all matrix elements were multiplied by same number) which can be ignored. — Martin Vesely 24 mins ago
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