Constructing Quantum Surface Codes for Arbitrary Surface Forms

2021 IEEE Symposium On Future Telecommunication Technologies (SOFTT) Pub Date : 2021-12-06 DOI:10.1109/SOFTT54252.2021.9673515

Melinda Br Ginting, Khoirul Anwar, Dick Maryopi

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引用次数: 3

Abstract

Quantum technology has been considered as one of the key enablers for the sixth-generation (6G) wireless commu-nication systems. Since we rely on vulnerable quantum states, the main challenge in quantum communication is to compute and send information in a reliable manner, which requires highly reliable quantum error corrections (QEC) with high fidelity. This paper proposes counter-clockwise standard forms to construct quantum surface codes for arbitrary surface forms. We show that our procedure can give result to the same codes as the currently available quantum surface codes. We investigate the matrix generated from Roffe $[[5,1,2]]$ quantum surface codes and compare to that of the proposed $[[5,1,2]]$ quantum surface codes. We perform a series of computer simulations to evaluate the codes in terms of quantum word error rate (QWER) under depolarizing channel model. Our results confirm that we can construct good performance quantum surface codes using counter-clockwise standard forms that helps the design of any arbitrary forms of quantum surface codes.

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构造任意曲面形式的量子曲面码

量子技术被认为是第六代(6G)无线通信系统的关键推动者之一。由于我们依赖于脆弱的量子态，量子通信的主要挑战是以可靠的方式计算和发送信息，这需要高可靠的高保真量子纠错(QEC)。本文提出了逆时针标准形式来构造任意曲面形式的量子曲面码。我们证明，我们的程序可以得到与目前可用的量子表面码相同的结果。我们研究了由Roffe $[[5,1,2]]$量子表面码生成的矩阵，并与所提出的$[[5,1,2]]$量子表面码进行了比较。我们进行了一系列的计算机模拟，以评估在去极化信道模型下的量子字错误率(QWER)。我们的研究结果证实，我们可以使用逆时针标准形式构建性能良好的量子表面码，这有助于设计任意形式的量子表面码。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2021 IEEE Symposium On Future Telecommunication Technologies (SOFTT)

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