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Classical Fully Homomorphic Encryption for Quantum Circuits: Difference between revisions
Classical Fully Homomorphic Encryption for Quantum Circuits (edit)
Revision as of 08:15, 11 July 2019
, 11 July 2019→Hardware Requirements
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== Hardware Requirements == | == Hardware Requirements == | ||
*The concerned protocol requires classical HE scheme. | *'''Network Stage:''' [[:Category:Quantum Memory Network Stage|Quantum Memory]] [[Category:Quantum Memory Network Stage]] | ||
*'''Required Network Parameters:''' | |||
**'''<math>\epsilon_j</math>''', which measures the error due to noisy operations. | |||
**Number of communication rounds | |||
**Circuit depth | |||
**Number of physical qubits used | |||
*The concerned protocol requires classical HE scheme. | |||
*Classical offline communication links | |||
*Communication can be performed over a classical network with only one quantum node (in case of classical input and output). | |||
*The functions <math>f_0, f_1</math> used must be trapdoor claw-free(TCF) such that one it is not possible to find a triple <math>(\mu_0,\mu_1,y)</math> such that <math>f_0(\mu_0)=f_1(\mu_1)=y</math> | *The functions <math>f_0, f_1</math> used must be trapdoor claw-free(TCF) such that one it is not possible to find a triple <math>(\mu_0,\mu_1,y)</math> such that <math>f_0(\mu_0)=f_1(\mu_1)=y</math> | ||
== Pseudocode== | == Pseudocode== | ||