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Classical Fully Homomorphic Encryption for Quantum Circuits: Difference between revisions
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Classical Fully Homomorphic Encryption for Quantum Circuits (edit)
Revision as of 12:16, 20 November 2018
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==='''Stage 1''' Client’s Preparation=== | ==='''Stage 1''' Client’s Preparation=== | ||
*Input: k, L, | *Input: <math>k, L, L_c</math>, classical message <math>m</math>, ( and Quantum Input <math>|\psi\rangle</math> in case of quantum inputs) | ||
*Output: Homomorphic key sets <math>(pk_i,evk_i,sk_i, t_{sk_i})</math>, encrypted pad key <math>\tilde{a}, \tilde{b}</math> (and Quantum One time Padded Output State <math>X^aZ^b|\psi\rangle</math> in case of quantum output) | *Output: Homomorphic key sets <math>(pk_i,evk_i,sk_i, t_{sk_i})</math>, encrypted pad key <math>\tilde{a}, \tilde{b}</math> (and Quantum One time Padded Output State <math>X^aZ^b|\psi\rangle</math> in case of quantum output) | ||
**''Key Generation (FHE.KeyGen(<math>1^{\lambda}, 1^L</math>))' | **''Key Generation (FHE.KeyGen(<math>1^{\lambda}, 1^L</math>))' | ||