This looks essentially equivalent to the quantum gate-synthesis problem, that is, the problem of decomposing a given unitary using a sequence of gates in a pre-defined gate set (although in principle if the target is only a specific state this might be easier, I don't know). This is an extremely complex problem subject to much research, and the ansewr strongly depends on the specifics of the problem. This is a relatively recent paper on the topic, so you might have a look at the references in the introduction in that paper. — glS 16 mins ago

what formula are you using for the success probabilities here? — glS 23 mins ago

This comes off as victim blaming. That the OP made a mistake is no reason to belittle him in front of others and essentially act like a bully. — Martin Tournoij 12 mins ago

Oh but this is just the tip of the ice berg, Steeeven. Does it feel uncomfortable for you? Why don't you run home to mommy? I mean she surely isn't bribed to fuck with you either. — mathreadler 16 mins ago

@Martin Tournoij Petty? I think it's perfectly fair advice. Take what you can and leave. Why would the op invest themselves in a company that insults them? — Julien Lopez 2 mins ago

How is your company sick day policy? What country is this? I would want to know why the current policy makes you feel like you have to go to work even though you are sick. — Brandin 5 mins ago

Well, I ended up writing a 50 line code program for a task which I thought to be more trivial. Anyway, I'll post my solution in a few minutes. — tigerjack89 15 mins ago

I took advantage of the fact that one can interpret the Grover algorithm geometrically, so that one comes to this formula for $k$ iteration steps: $|\psi\rangle=\frac{1}{\sqrt{N}}\sum|x\rangle=\cos((2k+1)\theta)|\alpha\rangle+\sin((2k+1)\theta)|\beta\rangle$ — P_Gate 10 mins ago

also, if $M\ge N/2$, classical random searching will work just as well so there is no need for Grover's — glS 1 min ago

@SanchayanDutta I think it's a limitation of the solve method. I'll try with other sympy solver. Anyway, could you double check if my results are the same than yours? I have not access to mathematica. Note also that I edited my answer, there were a stupid bug. — tigerjack89 15 mins ago

he also gave another way to complete the last step without the full calculation, see here onwards — glS 17 mins ago

well ok but you should also take into account the optimal number of steps to know when to stop. Using that, for $M\ge N/2$ I suspect you would just get that the optimal number of steps is $k=0$, meaning that Grover iteration actually bring you further away from the target. Note that the same thing happen if there is a single target but the initial overlap with it is large enough. — glS 22 mins ago

Great! But any idea why it doesn't show the first and third solution sets in terms of Pi? — Sanchayan Dutta 23 mins ago

Yes, but I think it just hides the neccessary calculation :) I don't see how it is more intuitive. Updated the answer. — Danylo Y 21 mins ago

Yes @glS thanks for adding this in comment. — cnada 13 mins ago

That's right, that's a legitimate objection. Before that, one would actually have to determine the number of iterations to prevent these cases. — P_Gate 12 mins ago

Let us continue this discussion in chat. — Sanchayan Dutta 24 mins ago

The best pointer here seems to be quantum RAM (QRAM). See e.g. here for some details. — smapers 22 mins ago

@PeterPaff I literally said Junior and OP says nothing about cannon-balling into a Senior position, so I have no idea where that interpretation came from. That said, some CS graduates sometimes aren't even fit for some Junior positions where someone with a minor + experience would. — lucasgcb 20 mins ago

An officer of a company is someone who is entitled to enter into financial contracts on behalf of the company. That's one reason investment banks have so many Vice Presidents; it's the most junior title it's reasonable to give an officer, and entering into financial contracts is what they do all day. A Blockchain Officer would in theory be able to do bitcoin deals or something. But it's probably just title inflation. — Gaius 23 mins ago

I feel this question should be put on hold because it feels like a rant, not an actual question. Because the answer is "Yes, you have the right to your anger. The other person is a jerk. That being said, HR made its decision. You must respect HR's decision. Maybe look for another employer who is more in tune with your values." — Stephan Branczyk 12 mins ago

Yes, I have seen the proof, in the end there is actually also this 4, the problem is, if I know the end of the proof that is fine and good. But without the end of the proof I would not have personally come to this factor 4 now. — P_Gate 4 mins ago

@P_Gate well it comes from a proof by induction, so I'm not sure how to understand it intuitively. One might try to rederive it without using induction, which would more likely give a direct understanding of the $4$ factor. Anyway, you might try to ask that as a separate question — glS 6 mins ago

Thanks for your Answer! One questiom comes up if I read this, so why is $D_k \leq 4k^2$, where does the factor 4 comes from. I could not explain that. I have seen this factor in Nielsens book too, but there is for me missing why the factor 4 appears there. — P_Gate 14 mins ago

Are you really ignoring that they treated him as a piece of garbage and put all the blame on him? — Francisco Ochoa 1 min ago

I am not interested in giving sources, because anyone who could have anything interesting to say are point marked from birth. — mathreadler 3 mins ago

@SolarMike so you don't think this answer is worthy of your up vote? More to the point when you see my questions do you make a point to down vote it? Have you ever up voted any of my questions? — Muze 2 mins ago

The employer might be an arse indeed but this advice is rubbish. Nothing is gained by willingly damaging a company. Toxic indeed. — Wolfgang Jacques 2 mins ago

Because you don't have the privilege to do so; you're not trusted with that capability. Moderators are, and by extension, the community when enough users with the ability to vote thusly do so. — fbueckert 21 mins ago

First of all, I would argue that pretty much everything is still an open question on this topic. But anyway, it is a bit unclear what you are asking. The notion of a "quantum agent" has been explored, see e.g. refs in Dunjko 1811.08676. But what do you mean exactly with "the agent is not present in the environment, that is, doesn't contribute noise to it"? If the agent doesn't interact with the environment, how can it be learning from it? Similarly, what does "arrange an environment" mean? — glS 3 mins ago

Hermitian means $\rho=\rho^\dagger$, therefore $\rho^*=\rho^T$ for an Hermitian matrix — glS 15 mins ago

So you are saying that you intended to insult us all? — DJClayworth 9 mins ago

For example in the double-slit experiment, the environment has a light that can be seen as a photon or wave, so we can arrange such an environment for learning, if this is the environment see the light as a photon, otherwise observe the light as a wave. I think the idea of learning in absence is studied by Alp and Dunjko as "quantum computational learning theory". I am imagining that the agent can be encoded into the environment or seen as an object in superposition, if results are desired, remove its presence, if they are not, retain it. — Jonas Kgomo 3 mins ago