Secure Client- Server Delegated Computation: Difference between revisions

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===Classical Offline Communication-Quantum Offline Communication===  
===Classical Offline Communication-Quantum Offline Communication===  
It involves a partially classical Client who can generate entanglement, use both classical and quantum communication with the Server during the preparation stage and output correction. There is no communication between the two parties during computation stage. Protocols falling under this category are Quantum Fully Homomorphic Encryption (QFHE). Client hides her input states with the help of some classical encryption using classical [[Supplementary Information#Homomorphic Encryption|'''Homomorphic Encryption''']] and prepares quantum gadgets (using [[Supplementary Information#entanglement|entanglement]]) which the Server uses perform computation on the encrypted state. This requires some steps which cannot be realised by classical HE scheme. Later Client decrypts the outcome sent by Server to get the correct result.  Just like UBQC, QFHE protocols can also be realised by a [[Prepare and Send Quantum Fully Homomorphic Encryption|'''Prepare and Send QFHE''']] protocol where client prepares and sends the input states to the Server. If the task performed by the Server can be verified by the Client, the protocol is called, Verifiable Quantum Fully Homomorphic Encryption (VQFHE). Same as QFHE, VQFHE can be realised by [[Prepare and Send Verifiable Quantum Fully Homomorphic Encryption|'''Prepare and Send VQFHE''']]. For both QFHE and VQFHE, Measurement Only protocols are an open case. Version for quantum input/output is also available in the descriptions.
It involves a partially classical Client who can generate entanglement, use both classical and quantum communication with the Server during the preparation stage and output correction. There is no communication between the two parties during computation stage. Quantum Fully Homomorphic Encryption (QFHE) falls under this category, where Client hides her input states with the help of classical [[Supplementary Information#Homomorphic Encryption|'''Homomorphic Encryption''']]. In addition to this she also prepares some quantum gadgets (using [[Supplementary Information#entanglement|entanglement]]) which she sends with the encrypted state to Server, in the prepapration stage. Server uses the quantum gadgets for computation on the encrypted state. Such gadgets require steps which cannot be realized by classical HE scheme. Later Client decrypts/deciphers the outcome sent by Server to get the correct result, in the correction Stage. If the task performed by the Server can be verified by the Client, the protocol is called, Verifiable Quantum Fully Homomorphic Encryption (VQFHE). Classes of protocols are:
*[[Prepare and Send Quantum Fully Homomorphic Encryption|'''Prepare and Send QFHE''']]
*[[Prepare and Send Verifiable Quantum Fully Homomorphic Encryption|'''Prepare and Send VQFHE''']]


===Classical Offline Communication-No Quantum Communication===
===Classical Offline Communication-No Quantum Communication===
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