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 …
Hybrid circuit map**: Leveraging the full spectrum of computational capabilities of neutral atom quantum computers
Quantum computing based on Neutral Atoms (NAs) provides a wide range of computational
capabilities, encompassing high-fidelity long-range interactions with native multi-qubit gates …
capabilities, encompassing high-fidelity long-range interactions with native multi-qubit gates …
Profiling quantum circuits for their efficient execution on single-and multi-core architectures
Application-specific quantum computers offer the most efficient means to tackle problems
intractable by classical computers. Realizing these architectures necessitates a deep …
intractable by classical computers. Realizing these architectures necessitates a deep …
Matching generalized-bicycle codes to neutral atoms for low-overhead fault-tolerance
Reuse-aware compilation for zoned quantum architectures based on neutral atoms
Quantum computing architectures based on neutral atoms offer large scales and high-fidelity
operations. They can be heterogeneous, with different zones for storage, entangling …
operations. They can be heterogeneous, with different zones for storage, entangling …