Pseudo-Secret Random Qubit Generator (PSQRG): Difference between revisions
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==Functionality Description== | ==Functionality Description== | ||
Random Qubit Generator allows an individual to generate qubits at a distance, while hiding the states of qubits. It could be used by a Client to instruct a Server to generate quantum states hiding her inputs for computation. It does not need an quantum channel and can be used over classical networks linked with quantum servers to achieve quantum functionality. | Random Qubit Generator allows an individual to generate qubits at a distance, while hiding the states of qubits. It could be used by a Client to instruct a Server to generate quantum states hiding her inputs for computation. It does not need an quantum channel and can be used over classical networks linked with quantum servers to achieve quantum functionality. | ||
''Tag:'' [[Two Party Protocols|Two Party]], [[Quantum Functionality|Quantum Functionality]], [[Universal Task|Universal Task]], [[Quantum Random Number Generator|QRNG]], [[Verification|Verification]], [[Secure Delegated Quantum Computation#Classical Online Communication-No Quantum Communication|Secure Delegated Quantum Computation]] | ''Tag:'' [[Two Party Protocols|Two Party]], [[Quantum Functionality|Quantum Functionality]], [[Universal Task|Universal Task]], [[Quantum Random Number Generator|Quantum Random Number Generator (QRNG)]], [[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#Trapdoor Claw-Free Functions|Trapdoor Claw-Free Functions (TCF)]], [[Supplementary Information#Learning With Errors|Learning With Errors]] | ||
Revision as of 14:21, 25 September 2018
Functionality Description
Random Qubit Generator allows an individual to generate qubits at a distance, while hiding the states of qubits. It could be used by a Client to instruct a Server to generate quantum states hiding her inputs for computation. It does not need an quantum channel and can be used over classical networks linked with quantum servers to achieve quantum functionality.
Tag: Two Party, Quantum Functionality, Universal Task, Quantum Random Number Generator (QRNG), Verification, Secure Delegated Quantum Computation, Classical Online Communication, Superposition, Trapdoor Claw-Free Functions (TCF), Learning With Errors