Parallel self-testing for device-independent verifiable blind quantum computation

Qingshan Xu; Xiaoqing Tan; Rui HuangXiaodan Zeng

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Parallel self-testing for device-independent verifiable blind quantum computation

机译：平行自我与设备无关的可核查的盲目的量子计算

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With advances in experimental quantum computing, the requirement for verifying the correctness of quantum computation is urgent. The recent protocols of device-independent verifiable blind quantum computation provide a fruitful solution. However, all existing approaches have relatively high overhead. In this paper, we present a parallel self-testing technology to extract the presence of tensor products of Pauli observables on maximally entangled state. We then utilize our parallel self-testing to propose a device-independent verification protocol. Finally, compared to other existing protocols, our scheme has a lower overhead, which costs O(n~(11) log n) Bell pairs, where n is the size of original computation.

机译：随着量子计算实验的进步,要求验证的正确性量子计算是紧迫的。协议与设备无关的可核查的盲人量子计算提供卓有成效的解决方案。不过,所有的现有方法相对高开销。平行自我测试技术来提取张量的泡利可见的产品在最大纠缠态。平行自我测试提出的与设备无关的验证协议。最后,与其他现有的协议相比,我们计划开销较低,成本O (n ~ (11) O (log n))贝尔对,其中n是大小原始的计算。

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来源
《Quantum Engineering》 |2020年第3期|e51-1-e51-17|共17页
作者
Qingshan Xu; Xiaoqing Tan; Rui HuangXiaodan Zeng;
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作者单位

College of Information Science and Technology, Jinan University;

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原文格式 PDF
正文语种英语
中图分类理论物理学;
关键词
Automatic testing; quantum computing; device-independentdevice independenceParallel LinesTensor products;

机译：自动测试;量子计算;device-independentdeviceindependenceParallel LinesTensor产品;

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Parallel self-testing for device-independent verifiable blind quantum computation

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