English

Kerdock Codes Determine Unitary 2-Designs

Information Theory 2021-08-20 v2 math.IT Quantum Physics

Abstract

The non-linear binary Kerdock codes are known to be Gray images of certain extended cyclic codes of length N=2mN = 2^m over Z4\mathbb{Z}_4. We show that exponentiating these Z4\mathbb{Z}_4-valued codewords by ı1\imath \triangleq \sqrt{-1} produces stabilizer states, that are quantum states obtained using only Clifford unitaries. These states are also the common eigenvectors of commuting Hermitian matrices forming maximal commutative subgroups (MCS) of the Pauli group. We use this quantum description to simplify the derivation of the classical weight distribution of Kerdock codes. Next, we organize the stabilizer states to form N+1N+1 mutually unbiased bases and prove that automorphisms of the Kerdock code permute their corresponding MCS, thereby forming a subgroup of the Clifford group. When represented as symplectic matrices, this subgroup is isomorphic to the projective special linear group PSL(2,N2,N). We show that this automorphism group acts transitively on the Pauli matrices, which implies that the ensemble is Pauli mixing and hence forms a unitary 22-design. The Kerdock design described here was originally discovered by Cleve et al. (arXiv:1501.04592), but the connection to classical codes is new which simplifies its description and translation to circuits significantly. Sampling from the design is straightforward, the translation to circuits uses only Clifford gates, and the process does not require ancillary qubits. Finally, we also develop algorithms for optimizing the synthesis of unitary 22-designs on encoded qubits, i.e., to construct logical unitary 22-designs. Software implementations are available at https://github.com/nrenga/symplectic-arxiv18a, which we use to provide empirical gate complexities for up to 1616 qubits.

Keywords

Cite

@article{arxiv.1904.07842,
  title  = {Kerdock Codes Determine Unitary 2-Designs},
  author = {Trung Can and Narayanan Rengaswamy and Robert Calderbank and Henry D. Pfister},
  journal= {arXiv preprint arXiv:1904.07842},
  year   = {2021}
}

Comments

16 pages double-column, 4 figures, and some circuits. Accepted to 2019 Intl. Symp. Inf. Theory (ISIT), and PDF of the 5-page ISIT version is included in the arXiv package

R2 v1 2026-06-23T08:41:45.264Z