Hidden linear function problem

The hidden linear function problem, is a search problem that generalizes the Bernstein–Vazirani problem.[1] In the Bernstein–Vazirani problem, the hidden function is implicitly specified in an oracle; while in the 2D hidden linear function problem (2D HLF), the hidden function is explicitly specified by a matrix and a binary vector. 2D HLF can be solved exactly by a constant-depth quantum circuit restricted to a 2-dimensional grid of qubits using bounded fan-in gates but can't be solved by any sub-exponential size, constant-depth classical circuit using unbounded fan-in AND, OR, and NOT gates.[2] While Bernstein–Vazirani's problem was designed to prove an oracle separation between complexity classes BQP and BPP, 2D HLF was designed to prove an explicit separation between the circuit classes and ().[1]

2D HLF problem statement

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Given  (an upper- triangular binary matrix of size  ) and   (a binary vector of length  ),

define a function  :

 

and

 

There exists a   such that

 

Find  .[1]

2D HLF algorithm

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With 3 registers; the first holding  , the second containing   and the third carrying an  -qubit state, the circuit has controlled gates which implement   from the first two registers to the third.

This problem can be solved by a quantum circuit,  , where H is the Hadamard gate, S is the S gate and CZ is CZ gate. It is solved by this circuit because with  ,   iff   is a solution.[1]

References

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  1. ^ a b c d Bravyi, Sergey; Gosset, David; Robert, König (2018-10-19). "Quantum advantage with shallow circuits". Science. 362 (6412): 308–311. arXiv:1704.00690. Bibcode:2018Sci...362..308B. doi:10.1126/science.aar3106. PMID 30337404. S2CID 16308940.
  2. ^ Watts, Adam Bene; Kothari, Robin; Schaeffer, Luke; Tal, Avishay (June 2019). "Exponential separation between shallow quantum circuits and unbounded fan-in shallow classical circuits". Proceedings of the 51st Annual ACM SIGACT Symposium on Theory of Computing. Vol. 362. Association for Computing Machinery. pp. 515–526. arXiv:1906.08890. doi:10.1145/3313276.3316404. ISBN 9781450367059. S2CID 195259496.
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