Neutral atom quantum computers offer unique advantages through reconfigurable atom layouts and scalable gate operations. However, efficiently routing qubit interactions in such dynamic, noise-sensitive environments remains a challenge. This project addresses that gap by developing adaptive, zone-aware routing methods integrated into the compilation workflow and tailored to real hardware constraints.
Adaptive Routing for Logical Qubits in Neutral Atom Quantum Systems
This collaborative project between TU Delft and PASQAL develops routing strategies for logical operations in neutral atom quantum computers. It targets architectures where qubits are dynamically moved between control zones and must be routed efficiently despite noise, decoherence, and scheduling constraints. The project combines classical and learning-based algorithms, stabilizer-based feedback, and system-level integration. The outcome will be a flexible, noise-aware routing framework embedded in a quantum compiler stack, enabling improved fidelity, parallelism, and scalability across realistic workloads.