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LDGM-Based Quantum Codes for Fault-Tolerant Quantum Computation

arXiv Math
CC BY
이 매체는 공공·자유 라이선스로 본문을 직접 표시합니다.

Abstract

We construct a new family of Calderbank-Shor-Steane (CSS) codes using the generator and parity-check matrices of Low-Density Generator Matrix (LDGM) codes, with row operations applied to both matrices in order to achieve the desired quantum rate.

Decoding is performed in an iterative manner, by applying message passing over the associated graph, and discrete Density Evolution (DDE) is used to optimize performance in the depolarizing channel.

The proposed construction offers high flexibility and easiness in the design, producing quantum codes that possess excellent error correction capabilities.

By properly designing the structure of the code, we are able to control and bound the weight of the stabilizer generators to a small value, which results in codes particularly well suited for fault-tolerant quantum computation.

At the same time, these codes achieve very good performance in terms of error correction capability.

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