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Pseudo-Secret Random Qubit Generator (PSQRG): Difference between revisions
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Pseudo-Secret Random Qubit Generator (PSQRG) (edit)
Revision as of 10:10, 27 September 2018
, 27 September 2018→Functionality Description
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==Functionality Description== | ==Functionality Description== | ||
Secret Random Qubit Generator (SQRG) enables fully-classical parties to participate in many quantum protocols using only public classical channels and a single quantum server. This functionality could be used to replace a quantum channel completely such that a classical Client can use it to perform various applications such as delegated quantum computation. This can be used to carry out | Secret Random Qubit Generator (SQRG) enables fully-classical parties to participate in many quantum protocols using only public classical channels and a single quantum server. This functionality could be used to replace a quantum channel completely such that a classical Client can use it to perform various applications such as delegated quantum computation. This can be used to carry out | ||
[[Secure Delegated Quantum Computation#Classical Online Communication-No Quantum Communication|Secure Delegated Quantum Computation]] by just classical online communication and no quantum communication. It allows a fully classical Client to hide her data such that she instructs Server to generate random qubits hiding her inputs and perform quantum computation on it via | [[Secure Delegated Quantum Computation#Classical Online Communication-No Quantum Communication|Secure Delegated Quantum Computation]] by just classical online communication and no quantum communication. It allows a fully classical Client to hide her data such that she instructs Server to generate random qubits hiding her inputs and perform quantum computation on it via [[Prepare and Send-Universal Blind Quantum Computation|UBQC]] or [[Verifiable Universal Blind Quantum Computation|VUBQC]] . It hides the output, input and computation from the Server. It can find use cases in other protocols like Quantum Money, Quantum Digital Signatures etc.. which needs a user to share his/her private quantum key over a quantum channel. | ||
'''Tags:''' [[Two Party Protocols|Two Party]], [[Quantum Functionality|Quantum Functionality]], [[Universal Task|Universal Task]], [[Verification|Verification]], [[Secure Delegated Quantum Computation#Classical Online Communication-No Quantum Communication|Secure Delegated Quantum Computation]], Classical Online Communication, [[Supplementary Information#Superposition|Superposition]], [[Supplementary Information#Collision Resistant Functions|Collision Resistant Functions]], [[Supplementary Information#Learning With Errors|Learning With Errors]] | '''Tags:''' [[Two Party Protocols|Two Party]], [[Quantum Functionality|Quantum Functionality]], [[Universal Task|Universal Task]], [[Verification|Verification]], [[Secure Delegated Quantum Computation#Classical Online Communication-No Quantum Communication|Secure Delegated Quantum Computation]], Classical Online Communication, [[Supplementary Information#Superposition|Superposition]], [[Supplementary Information#Collision Resistant Functions|Collision Resistant Functions]], [[Supplementary Information#Learning With Errors|Learning With Errors]] | ||