Sur- face code quantum computing by lattice surgery

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Showing 10 of 10 citing papers.

• Clifford Hierarchy Stabilizer Codes: Transversal Non-Clifford Gates and Magic quant-ph · 2025-11-04 · unverdicted · none · ref 25

  Extends n-dimensional topological stabilizer codes to Clifford hierarchy versions corresponding to non-Abelian gauge theories and constructs transversal gates at the (n+1)th Clifford level.

• Efficient and high-performance routing of lattice-surgery paths on three-dimensional lattice quant-ph · 2024-01-29 · unverdicted · none · ref 7

  Lattice-surgery scheduling is mapped to 3D path embedding and solved with look-ahead Dijkstra projection, yielding 3.8x lower execution time on quantum phase estimation benchmarks versus greedy scheduling.

• Low Spatial Cost CCZ Magic State Factory quant-ph · 2026-06-23 · unverdicted · none · ref 9

  A design framework that converts an eight-to-three CCZ distillation protocol into a joint-measurement surface-code layout using smaller patches, claimed to cut spatial cost versus Gidney-Fowler while preserving leading-order error suppression and single-fault detection.

• Learning Encodings by Maximizing State Distinguishability: Variational Quantum Error Correction quant-ph · 2025-06-13 · unverdicted · none · ref 47

  VarQEC uses a distinguishability loss as a machine-learning objective to variationally discover resource-efficient encoding circuits optimized for given noise models.

• Lower overhead fault-tolerant building blocks for noisy quantum computers quant-ph · 2026-05-12 · unverdicted · none · ref 35

  New combinatorial proofs and circuit designs for quantum error correction reduce physical qubit overhead by up to 10x and time overhead by 2-6x for codes including Steane, Golay, and surface codes.

• Architectural Approaches to Fault-Tolerant Distributed Quantum Computing and Their Entanglement Overheads quant-ph · 2025-11-17 · unverdicted · none · ref 36

  Three architectural types for fault-tolerant distributed quantum computing exhibit distinct scaling of Bell-pair consumption and generation attempts with code distance in planar surface and toric codes.

• Managing Classical Processing Requirements for Quantum Error Correction quant-ph · 2024-06-26 · unverdicted · none · ref 34

  A two-level decoder scheduling framework reduces classical processing requirements for quantum error correction by 10-40% on fault-tolerant benchmarks by managing bursty workloads as shared resources.

• An Analysis of Speculative Window Decoders for Quantum Error Correction quant-ph · 2026-06-23 · unverdicted · none · ref 6

  Speculative decoding for QEC reduces waiting time for prior windows but yields gains only under high speculation accuracy and low decoder latency; non-speculative decoders outperform under other conditions across gate speeds and platforms.

• Maximum Likelihood Decoding of Quantum Error Correction Codes quant-ph · 2026-05-17 · unverdicted · none · ref 113

  A topical review unifying statistical mechanics, tensor network, and AI approaches to approximate maximum likelihood decoding for quantum error correction codes.

• MCMit: Mid-Circuit Measurement Error Mitigation quant-ph · 2026-04-28 · unreviewed · ref 52