General Entropic Constraints on Calderbank-Shor-Steane Codes within Magic Distillation Protocols

IF 9.3 Q1 PHYSICS, APPLIED

PRX quantum : a Physical Review journal Pub Date : 2022-11-14 DOI:10.1103/PRXQuantum.4.020359

Rhea Alexander, Si Gvirtz-Chen, Nikolaos Koukoulekidis, D. Jennings

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Abstract

Magic states are fundamental building blocks on the road to fault-tolerant quantum computing. CSS codes play a crucial role in the construction of magic distillation protocols. Previous work has cast quantum computing with magic states for odd dimension $d$ within a phase space setting in which universal quantum computing is described by the statistical mechanics of quasiprobability distributions. Here we extend this framework to the important $d=2$ qubit case and show that we can exploit common structures in CSS circuits to obtain distillation bounds capable of out-performing previous monotone bounds in regimes of practical interest. Moreover, in the case of CSS code projections, we arrive at a novel cut-off result on the code length $n$ of the CSS code in terms of parameters characterising a desired distillation, which implies that for fixed target error rate and acceptance probability, one needs only consider CSS codes below a threshold number of qubits. These entropic constraints are not due simply to the data-processing inequality but rely explicitly on the stochastic representation of such protocols.

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Magic蒸馏协议中Calderbank Shor-Steane码的一般熵约束

魔态是容错量子计算道路上的基本组成部分。CSS代码在魔术蒸馏协议的构建中起着至关重要的作用。先前的工作已经在相空间设置中为奇维$d$投射了具有神奇状态的量子计算，在该设置中，通用量子计算由准概率分布的统计力学描述。在这里，我们将该框架扩展到重要的$d=2$量子位情况，并表明我们可以利用CSS电路中的公共结构来获得能够在实际感兴趣的状态中优于先前单调边界的蒸馏边界。此外，在CSS代码投影的情况下，根据表征所需蒸馏的参数，我们对CSS代码的代码长度$n$得出了一个新的截止结果，这意味着对于固定的目标错误率和接受概率，只需要考虑低于量子位阈值数目的CSS代码。这些熵约束不仅仅是由于数据处理不等式，而是明确地依赖于此类协议的随机表示。

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

PRX quantum : a Physical Review journal

CiteScore

14.60

自引率

0.00%

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