標題: The Encoding and Decoding Complexities of Entanglement-Assisted Quantum Stabilizer Codes
作者: Kuo, Kao-Yueh
Lai, Ching-Yi
電信工程研究所
Institute of Communications Engineering
公開日期: 1-Jan-2019
摘要: Quantum error-correcting codes are used to protect quantum information from decoherence. A raw state is mapped, by an encoding circuit, to a codeword so that the most likely quantum errors from a noisy quantum channel can be removed after a decoding process. A good encoding circuit should have some desired features, such as low depth, few gates, and so on. In this paper, we show how to practically implement an encoding circuit of gate complexity O(n(n - k + c)/ log n) for an [[n, k; c]] quantum stabilizer code with the help of c pairs of maximally-entangled states. For the special case of an [[n, k]] stabilizer code with c = 0, the encoding complexity is O(n(n - k)= log n), which is previously known to be O(n(2) / log n). For c > 0; this suggests that the benefits from shared entanglement come at an additional cost of encoding complexity. Finally we discuss decoding of entanglement-assisted quantum stabilizer codes and extend previously known computational hardness results on decoding quantum stabilizer codes.
URI: http://hdl.handle.net/11536/152993
ISBN: 978-1-5386-9291-2
期刊: 2019 IEEE INTERNATIONAL SYMPOSIUM ON INFORMATION THEORY (ISIT)
起始頁: 2893
結束頁: 2897
Appears in Collections:Conferences Paper