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Improved Resource State for Verifiable Blind Quantum Computation

Qingshan Xu, Xiaoqing Tan, Rui Huang

2020Entropy12 citationsDOIOpen Access PDF

Abstract

Recent advances in theoretical and experimental quantum computing raise the problem of verifying the outcome of these quantum computations. The recent verification protocols using blind quantum computing are fruitful for addressing this problem. Unfortunately, all known schemes have relatively high overhead. Here we present a novel construction for the resource state of verifiable blind quantum computation. This approach achieves a better verifiability of 0.866 in the case of classical output. In addition, the number of required qubits is 2N+4cN, where N and c are the number of vertices and the maximal degree in the original computation graph, respectively. In other words, our overhead is less linear in the size of the computational scale. Finally, we utilize the method of repetition and fault-tolerant code to optimise the verifiability.

Topics & Concepts

Quantum computerVerifiable secret sharingComputer scienceComputationQuantumQubitTheoretical computer scienceOverhead (engineering)AlgorithmQuantum mechanicsPhysicsSet (abstract data type)Programming languageOperating systemQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyQuantum Mechanics and Applications