# Questions tagged [quantum-computing]

Quantum computation and computational issues related to quantum mechanics

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### Coset state of $3$-node graph isomorphism problem

The hidden subgroup representation of a $3$-node graph isomorphism problem is defined over the symmetric group, $G = S_6$. So, any hidden subgroup algorithm that wishes to solve the problem should ...
909 views

### Complexity: simulated annealing vs. quantum annealing

How do I compare the performance of simulated annealing against the performance of quantum annealing algorithms? In Convergence theorems for quantum annealing by Morita and Nishimori, it has been ...
310 views

### Is the Presburger arithmetic decision problem known to be outside of BQP or BPP?

Presburger arithmetic is well-known to be decidable but intractable, requiring doubly exponential time even with nondeterminism (Fischer and Rabin, 1974). I am wondering if it is also known whether ...
651 views

### Problems in BQP but conjectured to be outside P

Wikipedia listed four problems that are in $BQP$ but conjectured to be outside $P$: Integer factorization; Discrete logarithm; Simulation of quantum systems; Computing the Jones polynomial at certain ...
4k views

### Travelling sales man with Quantum Computers [closed]

I know that it takes billions of years to solve the travelling sales man when n = 25 (Number of cities). I am wondering how fast can a quantum computer solve the travelling sales man problem (for ...
890 views

### Continued Fraction Algorithm in Shor's Algorithm

I am just trying to make the final link of Shor's algorithm clear. Here $r$ is the order of $x$ modulo $N$. We have a number $\psi$, which for a rational number $\dfrac{s}{r}$ satisfies \begin{...
94 views

### Proofs to verify quantum states without revealing their description

Consider the following function $$f_s: k \rightarrow \lvert \psi_k \rangle$$ where $s,k$ are bit strings, and $\lvert \psi_k \rangle$ is a $n$-qubit state. Assume the function is a one-to-one mapping....
Consider a quantum state $\lvert \psi \rangle$, we know from the no cloning theorem, that it cannot be perfectly cloned. Also, loosely speaking, that it can be imperfectly cloned s.t. one can produce ...