English

On Optimality of CSS Codes for Transversal $T$

Quantum Physics 2021-08-20 v3 Information Theory math.IT

Abstract

In order to perform universal fault-tolerant quantum computation, one needs to implement a logical non-Clifford gate. Consequently, it is important to understand codes that implement such gates transversally. In this paper, we adopt an algebraic approach to characterize all stabilizer codes for which transversal TT and T1T^{-1} gates preserve the codespace. Our Heisenberg perspective reduces this to a finite geometry problem that translates to the design of certain classical codes. We prove three corollaries: (a) For any non-degenerate [[n,k,d]][[ n,k,d ]] stabilizer code supporting a physical transversal TT, there exists an [[n,k,d]][[ n,k,d ]] CSS code with the same property; (b) Triorthogonal codes are the most general CSS codes that realize logical transversal TT via physical transversal TT; (c) Triorthogonality is necessary for physical transversal TT on a CSS code to realize the logical identity. The main tool we use is a recent efficient characterization of certain diagonal gates in the Clifford hierarchy (arXiv:1902.04022). We refer to these gates as Quadratic Form Diagonal (QFD) gates. Our framework generalizes all existing code constructions that realize logical gates via transversal TT. We provide several examples and briefly discuss connections to decreasing monomial codes, pin codes, generalized triorthogonality and quasitransversality. We partially extend these results towards characterizing all stabilizer codes that support transversal π/2\pi/2^{\ell} ZZ-rotations. In particular, using Ax's theorem on residue weights of polynomials, we provide an alternate characterization of logical gates induced by transversal π/2\pi/2^{\ell} ZZ-rotations on a family of quantum Reed-Muller codes. We also briefly discuss a general approach to analyze QFD gates that might lead to a characterization of all stabilizer codes that support any given physical transversal 11- or 22-local diagonal gate.

Keywords

Cite

@article{arxiv.1910.09333,
  title  = {On Optimality of CSS Codes for Transversal $T$},
  author = {Narayanan Rengaswamy and Robert Calderbank and Michael Newman and Henry D. Pfister},
  journal= {arXiv preprint arXiv:1910.09333},
  year   = {2021}
}

Comments

v2: Much improved proof for Theorem 2, and some presentation improvements in other proofs. Main sections: 16 pages, double column, IEEEtran style. Examples included. Comments welcome!

R2 v1 2026-06-23T11:49:47.355Z