Neutral atom quantum computers have gained significant attention due to their impressive coherence times and scalability, but their control overhead has hindered their performance. A major contributor to this overhead is the time-consuming process of detecting individual atoms and measuring their states, which occurs at least once per computation cycle. To address this issue, researchers have proposed an efficient image reconstruction architecture that aims to streamline the detection and measurement process. This architecture has the potential to significantly reduce the control overhead, enabling faster and more efficient computation. The development of such architectures is crucial for the advancement of neutral atom quantum computing, as it could pave the way for more complex and powerful quantum computations. This breakthrough matters to practitioners because it could lead to significant improvements in quantum computing performance, ultimately rewriting the rules of computation and cryptography1.