Fault-Tolerant Protocols Through Spacetime Concatenation

Explore fault-tolerant quantum computing protocols through spacetime concatenation in this 43-minute conference talk. Learn how quantum error correction and fault-tolerance enable scalable quantum computation despite the presence of noise, and discover recent theoretical advances in constructing novel quantum code families in non-local geometries that challenge conventional understanding of matter phases. Examine optimization techniques for quantum error correction under structured noise models that can reduce practical implementation overhead, and understand how these developments create new challenges and opportunities in quantum many-body physics when describing encoded quantum matter properties and evolution. Gain insights into cutting-edge research relevant to near-term quantum device experiments, presented as part of a conference exploring quantum many-body systems through the framework of quantum error correction and fault-tolerance.