Transversal Architectures for Neutral Atom Logical Quantum Computation

The experimental realization of early fault-tolerant quantum processors marks an exciting opportunity to rethink how we architect large-scale quantum computation. Building a scalable quantum processor requires cross-cutting advances across the entire fault-tolerance stack, spanning algorithms and compilation, quantum error correction, and hardware. In this talk, I will present recent QEC progress in designing this stack for neutral atom platforms with transversal architectures, which have demonstrated key building blocks of fault-tolerant operation and achieved substantial space–time overhead reductions compared to conventional two-dimensional approaches.