Write, autoreview, editor, reviewer
3,129
edits
No edit summary |
|||
Line 1: | Line 1: | ||
This protocol allows the client to verify the correctness of the blind delegated quantum computing with high probability. Here, the server prepares and sends a universal resource quantum state to the client, and the client only performs measurements to carry out the quantum computation. Using this method, it is easy to verify with high probability whether the server is honest. The computation here remains perfectly private from the server and this protocol can implement any quantum computation. | The [https://arxiv.org/abs/1606.06467 example protocol] achieves the functionality of [[Secure Client- Server Delegated Computation|Delegated Computation]] which is the task of assigning quantum computation to an untrusted device while maintaining privacy of the computation. This protocol allows the client to verify the correctness of the blind delegated quantum computing with high probability. Here, the server prepares and sends a universal resource quantum state to the client, and the client only performs measurements to carry out the quantum computation. Using this method, it is easy to verify with high probability whether the server is honest. The computation here remains perfectly private from the server and this protocol can implement any quantum computation. | ||
</br> | </br> | ||
'''Tags''' [[Two Party Protocols|Two Party]], [[Universal Task|Universal Task]], [[Quantum Functionality|Quantum Functionality]], [[Secure Delegated Quantum Computation|Secure Delegated Quantum Computation]], Quantum Online communication, Classical Online communication, [[Supplementary Information#Measurement Based Quantum Computation|Measurement Based Quantum Computation (MBQC)]], [[Verifiable Secure Delegated Quantum Computation|Verification of Quantum computers]]. | |||
==Assumptions== | ==Assumptions== |