Quantum Computation From Dynamic Automorphism Codes - IPAM at UCLA

Explore a cutting-edge lecture on quantum computation and error correction presented by Dave Aasen from Microsoft Station Q at IPAM's Topology, Quantum Error Correction and Quantum Gravity Workshop. Delve into the concept of dynamic automorphism codes, a novel model of quantum computation that utilizes low-weight measurement sequences for encoding logical information, enabling error correction, and applying logical gates. Discover how these codes generalize Floquet codes and learn about the dynamic automorphism color code, an explicit example that can implement the full logical Clifford group using primarily two-qubit Pauli measurements. Investigate the potential for universal quantum computation through a 3D dynamic automorphism color code and its ability to realize non-Clifford logical gates with adaptive two-qubit measurements. Gain insights into the latest advancements in quantum error-correcting codes and their applications in quantum computing.

Dave Aasen - Quantum computation from dynamic automorphism codes - IPAM at UCLA