Thanks. Can you please provide reference for "you can't simply diffuse over the mixed state". — mike_dole_z3 9 mins ago

again, when you say "such an environment" I don't know what are you referring to. Similarly, what does "learning in absence" mean? — glS 24 mins ago

Question bans and answer bans are unrelated. Have you asked a bunch of closed/deleted questions? — Journeyman Geek ♦ 12 mins ago

@smapers a QRAM is not a quantum circuit though, but rather a scheme to load classical information into a quantum memory. It does not realise a transformation between states like it is asked in the question — glS 23 mins ago

@ Arthur-1 It's not based on models that exist, rather a way of my being able to communicate with people who are not physics experts but can comprehend the conversation given an adequate explanation for the purposes of what we need the info for-- most models are either way too simplistic or way too dense-- do you have names of models that are useful to computer science experts that are not physics scientists other than how I drew it out? — elsa 3 mins ago

@Mark S and so any 1 of those 16 Hadamar gates using hte Dirac notation, if compared to more basic math/comp sci, would be equivalent, or could be represented by its corresponding single, 2 * 2 matrix? — elsa 19 mins ago

@elsa I want to use the words that quantum computer-scientists like to use. When you say a model for "basic math/comp sci" I would like to say a model for "classical" bits. This is opposed to the superposition - a "model" - of "quantum bits," or qubits. When you ask "any 1 of those 16 ... [states], if compared to more basic math/comp sci, would be equivalent," I'm thinking you are asking what happens when you measure. After measuring, the state collapses to one of the given vectors, going from quantum to classical. After measuring, qubits become bits. — Mark S 6 mins ago

@Arthur-1 So I can phrase the use of vectors as such: 1 classical bit is denoted by a collapsed qubit. A qubit is the resulting collapsed state out of 16 possible states. The 16 possible states can be represented by the corresponding 2*2 vectors. The 2*2 vectors originate from one of the following probabilities: MODEL 1: 1000 0100 0010 0001... 2 ... 3... These models, known as Hadamar Gates using Dirac notation 1/4(|0000⟩...) are equivalent to classical XOR gates. Each 1 qubit represents 1 Hadamar gate, or 2 classic XOR gates. This is simplistic and pedantic but accurate, yes? — elsa 16 mins ago

At this juncture I'd recommend asking another question for areas where you're struggling. It's difficult to communicate over the comments. — Mark S 12 mins ago

@elsa These models, known as Hadamar Gates using Dirac notation 1/4(|0000⟩...) are equivalent to classical XOR gates. Hmm... A Hadamard gate acting on a a qubit initially in $\vert 0\rangle$ will put the qubit into a superposition of both $\vert 0\rangle+\vert 1\rangle$. Each 1 qubit represents 1 Hadamar gate, or 2 classic XOR gates. You apply $4$ separate Hadmard gates to $4$ separate qubits. That's correct. But I'm not sure how you're interpreting a Hadamard gate as "2 classical XOR gates." Think of a Hadarmard gate like a classical $\mathsf{NOT}$ gate putting qubits into superposn — Mark S 13 mins ago

@elsa line by line. 1 classical bit is denoted by a collapsed qubit. SURE A qubit is the resulting collapsed state out of 16 possible states. This isn't how I would say it. Only 1 qubit would collapse into only 1 classical bit. You have $16$ possible states because you had $4$ qubits and $2^{4}=16$. The 16 possible states can be represented by the corresponding 2*2 vectors. Not sure where you get 2*2 from. It sounds like maybe you're confused about Cartesian products and tensor products. You have $4$ qubits, each qubit can be in one of $2$ states, so $2^4=16$. — Mark S 20 mins ago

@SonictheInclusiveHedgehog then it's a silly calculation. Two positives vs one negative leaves you with one positive. It's math(s). It doesn't bother me tho', I rarely post two questions on the same day. — Mari-Lou A 3 mins ago

@SanchayanDutta ah, that makes sense. So they mean that one is considering a set of observables $\{A_k\}_k$, some of which can be commuting, but which is not a set of mutually commuting observables. — glS 2 mins ago

Related: Marginal and joint probability in quantum mechanics — Sanchayan Dutta 2 mins ago

what is $U$ here? Also, I guess $P_0$ here is the projection onto $\lvert0\rangle$, but it would be better if you could include the definition in the post — glS 7 mins ago

From what I understand, if you have $[A,B]=0$ and $[B,C]=0$, it is true that measurement of $A$ will have no effect on measurement of $B$, and the measurement of $B$ will have no effect on measurement of $C$, but the measurement of $B$ will not be context-independent i.e. it'll depend on whether you've $A$ or $C$ in your set. If you have all $A$, $B$ and $C$ in your set, there's some uncertainty in the measurement statistics. In other words, given two well-defined marginal distributions $P(a,b|A,B)$ and $P(b,c|B,C)$ you won't have a well-defined joint probability distribution $P(a,b,c|A,B,C)$. — Sanchayan Dutta 9 mins ago

yes $U$ is the $X$ gate.I want the state of the third register being flipped controlled by the first two registers. — Upstart 7 mins ago

so $U$ is the $X$ gate here? Otherwise I don't understand why you talk of CCNOT. Also, can you link the answer you are referring to? — glS 10 mins ago

i have added the esit — Upstart 13 mins ago

Yup, that's right! I do agree the Wikipedia page sounds rather handwavy. :/ — Sanchayan Dutta 25 mins ago

@glS Nice. BTW there's a whole bunch of interesting inequalities related to this contextuality stuff (which I don't know much about) cf. KCBS inequality; will expand on this answer once I learn more. — Sanchayan Dutta 16 mins ago

thanks. I also just found this other related post on physics.SE which contains some useful references. — glS 19 mins ago

@won "This account is temporarily suspended for being a unicorn.", "This account is temporarily suspended for talking with a full mouth.", "This account is temporarily perma-suspended for minor high-severity violations not amounting to gross malfeasance but amounting to high infractions and petty felonies." — Robert Columbia 22 mins ago

That might be entertaining, but would probably become rude quite quickly and ultimately end up being counterproductive. — Some User 24 mins ago