Atomique: A quantum compiler for reconfigurable neutral atom arrays
The neutral atom array has gained prominence in quantum computing for its scalability and
operation fidelity. Previous works focus on fixed atom arrays (FAAs) that require extensive …
operation fidelity. Previous works focus on fixed atom arrays (FAAs) that require extensive …
Lightning Talk: Scaling Up Quantum Compilation–Challenges and Opportunities
J Cong - 2023 60th ACM/IEEE Design Automation Conference …, 2023 - ieeexplore.ieee.org
The past decade witnessed exciting advances in quantum computing (QC) platforms. For
example, superconducting qubit systems of over a hundred qubits have been developed …
example, superconducting qubit systems of over a hundred qubits have been developed …
Q-pilot: Field programmable qubit array compilation with flying ancillas
Neutral atom arrays, particularly the reconfigurable field programmable qubit arrays (FPQA)
with atom movement, show strong promise for quantum computing. FPQA has a dynamic …
with atom movement, show strong promise for quantum computing. FPQA has a dynamic …
Computational capabilities and compiler development for neutral atom quantum processors—connecting tool developers and hardware experts
Abstract Neutral Atom Quantum Computing (NAQC) emerges as a promising hardware
platform primarily due to its long coherence times and scalability. Additionally, NAQC offers …
platform primarily due to its long coherence times and scalability. Additionally, NAQC offers …
Compiling quantum circuits for dynamically field-programmable neutral atoms array processors
Dynamically field-programmable qubit arrays (DPQA) have recently emerged as a promising
platform for quantum information processing. In DPQA, atomic qubits are selectively loaded …
platform for quantum information processing. In DPQA, atomic qubits are selectively loaded …
Optimal qubit reuse for near-term quantum computers
Near-term quantum computations are limited by high error rates, the scarcity of qubits and
low qubit connectivity. Increasing support for mid-circuit measurements and qubit reset in …
low qubit connectivity. Increasing support for mid-circuit measurements and qubit reset in …
Matching generalized-bicycle codes to neutral atoms for low-overhead fault-tolerance
Despite the necessity of fault-tolerant quantum systems built on error correcting codes, many
popular codes, such as the surface code, have prohibitively large overheads. This has …
popular codes, such as the surface code, have prohibitively large overheads. This has …
Decomposing and routing quantum circuits under constraints for neutral atom architectures
Quantum computing is in an era defined by rapidly evolving quantum hardware
technologies, combined with persisting high gate error rates, large amounts of noise, and …
technologies, combined with persisting high gate error rates, large amounts of noise, and …
FPQA-C: a compilation framework for field programmable qubit array
The neutral atom array has gained prominence in quantum computing for its scalability and
operation fidelity. Previous works focus on\textit {fixed} atom arrays (FAA) that necessitate …
operation fidelity. Previous works focus on\textit {fixed} atom arrays (FAA) that necessitate …
Dasatom: A divide-and-shuttle atom approach to quantum circuit transformation
Y Huang, D Gao, S Ying, S Li - IEEE Transactions on Computer …, 2025 - ieeexplore.ieee.org
Neutral atom (NA) quantum systems are emerging as a leading platform for quantum
computation, offering superior or competitive qubit count and gate fidelity compared to …
computation, offering superior or competitive qubit count and gate fidelity compared to …