Interactive Proofs for Quantum Computation: Difference between revisions

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Providing solution to the functionality [[Verification of Universal Quantum Computation|Verification of Quantum Computation]], is a class [https://complexityzoo.uwaterloo.ca/Complexity_Zoo:M#ma MA] (Merlin-Arthur) that consists of all the problems whose solution can be verified by a BPP machine (verifier that has a classical computer) when given a proof by a 'witness' (prover). As MA is not entirely contained in BQP [[Interactive Proofs for Quantum Computation#References|(1)(2)]], as believed (problems that can be solved by a quantum computer), the functionality of verification asks 'Does every problem in BQP admit an interactive-proof system in which the prover is restricted to BQP computations?' The [https://arxiv.org/pdf/1704.04487.pdf example protocol] answers this question by defining quantum prover interactive proofs and state 'Any language in BQP has a QPIP (quantum prover interactive proofs) which hides the computation from the prover'. [https://complexityzoo.uwaterloo.ca/Complexity_Zoo:I#ip IP] (interactive proof systems) is a generalisation of class MA, which involves multiple interaction between the prover (untrusted company) and the verifier (consumer).
Providing solution to the functionality [[Verification of Universal Quantum Computation|Verification of Quantum Computation]], is a class [https://complexityzoo.uwaterloo.ca/Complexity_Zoo:M#ma MA] (Merlin-Arthur) that consists of all the problems whose solution can be verified by a BPP machine (verifier that has a classical computer) when given a proof by a 'witness' (prover). As believed, MA is not entirely contained in BQP (problems that can be solved by a quantum computer) [[Interactive Proofs for Quantum Computation#References|(1)(2)]], the functionality of verification asks 'Does every problem in BQP admit an interactive-proof system in which the prover is restricted to BQP computations?' The [https://arxiv.org/pdf/1704.04487.pdf example protocol] answers this question by defining quantum prover interactive proofs and state 'Any language in BQP has a QPIP (quantum prover interactive proofs) which hides the computation from the prover'. [https://complexityzoo.uwaterloo.ca/Complexity_Zoo:I#ip IP] (interactive proof systems) is a generalisation of class MA, which involves multiple interaction between the prover (untrusted company) and the verifier (consumer).
==Further Information==
==Further Information==
==References==
==References==

Revision as of 20:49, 17 June 2019

Providing solution to the functionality Verification of Quantum Computation, is a class MA (Merlin-Arthur) that consists of all the problems whose solution can be verified by a BPP machine (verifier that has a classical computer) when given a proof by a 'witness' (prover). As believed, MA is not entirely contained in BQP (problems that can be solved by a quantum computer) (1)(2), the functionality of verification asks 'Does every problem in BQP admit an interactive-proof system in which the prover is restricted to BQP computations?' The example protocol answers this question by defining quantum prover interactive proofs and state 'Any language in BQP has a QPIP (quantum prover interactive proofs) which hides the computation from the prover'. IP (interactive proof systems) is a generalisation of class MA, which involves multiple interaction between the prover (untrusted company) and the verifier (consumer).

Further Information

References

  1. Bernstein and Vazirani (1997)
  2. Watrous (2000)
contributed by Shraddha Singh