Secure multiparty quantum computation with few qubits

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Abstract

We consider the task of secure multiparty distributed quantum computation on a quantum network. We propose a protocol based on quantum error correction which reduces the number of necessary qubits. That is, each of the n nodes in our protocol requires an operational workspace of n2+4n qubits, as opposed to the previously shown ω(n3+n2s2)logn qubits, where s is a security parameter. Additionally, we reduce the communication complexity by a factor of O(n3log(n)) qubits per node compared to existing protocols. To achieve universal computation, we develop a distributed procedure for verifying magic states, which allows us to apply distributed gate teleportation and which may be of independent interest. We showcase our protocol in a small example for a seven-node network.

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PhysRevA.102.022405.pdf
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