Low-latency FPGA-based electronic control system for fast preparation of defect-free atom arrays

Abstract

The scalability of neutral atom quantum computing demands integrated electronic control systems with low latency, modular architecture, and real-time feedback capability. Here, we present an FPGA-based electronic control system that eliminates the PC from the feedback loop, integrating photon counting, real-time decision-making, and waveform generation within a unified PXIe architecture. The system achieves a total feedback latency of 282\,μs and is validated in practical experiments by assembling defect-free atom arrays from 24 stochastically loaded optical tweezers. A single-round rearrangement achieves a filling fraction of 96\%, while feedback-controlled iterative rearrangement over five rounds boosts the success probability for generating a 10-atom defect-free array from 65.7\% to 95.4\%. This system establishes the electronic infrastructure necessary for mid-circuit measurement and real-time quantum error correction on neutral-atom platforms.

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