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See related, but possibly outdated responses here: quantumcomputing.stackexchange.com/q/8329/8623 — Jonathan Trousdale 14 mins ago
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Last I heard they were working on getting that feature into Cirq and it may be there by now; another takeaway from this answer is that an API for computing sample-based pauli estimators can be quite confusing since the outcome has nothing to do with a standalone Pauli term and everything to do with an implied readout prep subcircuit. — forky40 4 mins ago
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You might find these questions interesting: quantumcomputing.stackexchange.com/questions/4125/… & quantumcomputing.stackexchange.com/questions/4991/… — meowzz 10 mins ago
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The
WeightedPauliOperator
is a possible way to represent an Ising Hamiltonian, e.g. in contrast to the MatrixOperator
. If you want to use VQE or QAOA to actually approximate the ground state, then Qiskit does the translation for you and you can directly use the MinimumEigenOptimizer
and give it a QuadraticProgram
. See this tutorial on QAOA: github.com/Qiskit/qiskit-tutorials/blob/master/tutorials/… For VQE, just pass VQE as a MinimumEigenSolver
instead of QAOA. — Stefan Woerner 18 mins agook :) these are results from qasm_simulator:
{"0010010101": 61, "1010010101": 2, "1000010101": 70, "1100010101": 8, "0000010101": 799, "0110010101": 2, "0100010101": 57, "1000001110": 1}
, these from ibmq_qasm_simulator: {"0110010101": 1, "0000010101": 52, "0100010101": 368, "0010011100": 366, "0100011100": 1, "1010010101": 3, "0110011100": 153, "1000010101": 4, "1110011100": 10, "1100010101": 16, "1010011100": 25, "0000011100": 1}
. The lowest energy is for configuration: "0000010101"
. On qasm_simulator
this config got 799 and in ibmq_qasm_simulator
this config got only 52. — gosia123 21 mins ago11:01 AM
isn't that akin to asking what can be done when you regard doing (partial?) tomography as a free operation? Or you mean a more abstract scenario in which we "magically" can access (partial) tomographic information about the state? Like, in the latter case we could for example store and reliably retrieve an infinite amount of information even using a single qubit I guess — glS 10 mins ago
rescaling the density matrix does not correspond to rescaling the corresponding Bloch vector — glS 24 mins ago
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[ Boson ] New comment posted on stackoverflow by [ Phallex](stackoverflow.com/users/13605542/phallex)
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very nice! Is there an easy way to see why the last statement holds? Or do you have a reference for it? — glS 21 mins ago
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As far as I am aware this is done computationally via a vertex enuneration algorithm. (Which converts between vertex and hyperplane descriptions of a polytope). I believe the first reference to state that there are 8 nontrivial facets if the 222 polytope is link.springer.com/article/10.1007/BF02903286. — Rammus 22 mins ago
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the best reference is a 1981 paper written in English, Italian and Russian (or at least with intros translated in those languages??) published on an Italian journal? Wow, that's something.. — glS 12 mins ago
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I find it weird that this can/is only shown numerically though. We can write explicitly the vectors making up the vertices of $\mathcal L$, so the inequalities, if tight, should be nothing but the convex closure of this finite number of vectors, thus in principle characterisable ab-initio. I guess working geometrically in such high-dimensional spaces is rather unwieldy though — glS 8 mins ago
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You're right, by computationally I meant that there is an algorithm to compute all of the facets from the vertices. In principle one could do this by hand but it is probably quite tedious. Also for more complex nonlocality scenarios (more inputs/outputs/parties) the number of facets grows very quickly. — Rammus 13 mins ago
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