Optimization of Quantum Circuits for Stabilizer Codes

Arijit Mondal, Keshab K. Parhi

Research output: Contribution to journalArticlepeer-review

Abstract

Quantum computing is an emerging technology that has the potential to achieve exponential speedups over their classical counterparts. To achieve quantum advantage, quantum principles are being applied to fields such as communications, information processing, and artificial intelligence. However, quantum computers face a fundamental issue since quantum bits are extremely noisy and prone to decoherence. Keeping qubits error free is one of the most important steps towards reliable quantum computing. Different stabilizer codes for quantum error correction have been proposed in past decades and several methods have been proposed to import classical error correcting codes to the quantum domain. Design of encoding and decoding circuits for the stabilizer codes have also been proposed. Optimization of these circuits in terms of the number of gates is critical for reliability of these circuits. In this paper, we propose a procedure for optimization of encoder circuits for stabilizer codes. Using the proposed method, we optimize the encoder circuit in terms of the number of 2-qubit gates used. The proposed optimized eight-qubit encoder uses 18 CNOT gates and 4 Hadamard gates, as compared to 14 single qubit gates, 33 2-qubit gates, and 6 CCNOT gates in a prior work. The encoder and decoder circuits are verified using IBM Qiskit. We also present encoder circuits for the Steane code and a 13-qubit code, that are optimized with respect to the number of gates used, leading to a reduction in number of CNOT gates by 1 and 8, respectively.

Original languageEnglish (US)
Pages (from-to)3647-3657
Number of pages11
JournalIEEE Transactions on Circuits and Systems I: Regular Papers
Volume71
Issue number8
DOIs
StatePublished - 2024

Bibliographical note

Publisher Copyright:
© 2024 IEEE.

Keywords

  • 13-qubit code
  • Quantum ECCs
  • eight-qubit code
  • quantum computation
  • quantum encoders and decoders
  • stabilizer codes
  • syndrome detection

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