A Numerical Study of Bravyi-Bacon-Shor and Subsystem Hypergraph Product Codes

机译：Bravyi-Bacon-Shor和子系统超图产品代码的数值研究

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We provide a numerical investigation of two families of subsystem quantum codes that are related to hypergraph product codes by gauge-fixing. The first family consists of the Bravyi-Bacon-Shor (BBS) codes which have optimal code parameters for subsystem quantum codes local in 2-dimensions. The second family consists of the constant rate “generalized Shor” codes of Bacon and Cassicino [1], which we re-brand as subsystem hypergraph product (SHP) codes. We show that any hypergraph product code can be obtained by entangling the gauge qubits of two SHP codes. To evaluate the performance of these codes, we simulate both small and large examples. For circuit noise, a [21], [4], [3] BBS code and a [49], [16], [3] SHP code have pseudthresholds of 2 × 10⁻³and 8 × 10⁻⁴, respectively. Simulations for phenomenological noise show that large BBS and SHP codes start to outperform surface codes with similar encoding rate at physical error rates 1 × 10⁻⁶ and 4 × 10⁻⁴, respectively.

机译：我们通过量规固定对与超图乘积代码相关的子系统量子代码的两个家族进行了数值研究。第一个族由Bravyi-Bacon-Shor（BBS）码组成，它们具有二维局部局部子系统量子代码的最佳代码参数。第二个系列由培根和Cassicino [1]的恒定速率“广义Shor”代码组成，我们将其重新命名为子系统超图产品（SHP）代码。我们证明，通过纠缠两个SHP代码的规范量子位，可以获得任何超图乘积代码。为了评估这些代码的性能，我们模拟了大小示例。对于电路噪声，[21]，[4]，[3] BBS码和[49]，[16]，[3] SHP码的伪阈值为2×10 ^{-3
和8×10
^{-4
，分别。现象学噪声的仿真显示，在物理错误率1×10的情况下，大型BBS和SHP代码开始优于具有相似编码率的表面代码
^{-6
和4×10
^{-4
，分别。}}}}

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《IEEE International Conference on Quantum Computing and Engineering》|2020年|109-119|共11页
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Muyuan Li; Theodore J. Yoder;
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Qubit; Product codes; Decoding; Fault tolerant systems; Fault tolerance; Parity check codes; Integrated circuit modeling;

机译：Qubit;产品代码;解码;容错系统;容错;奇偶校验代码;集成电路建模;

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机译：Bravyi-Bacon-Shor和子系统超图产品码的数值研究

A Numerical Study of Bravyi-Bacon-Shor and Subsystem Hypergraph Product Codes

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