 This study explores three non-adiabatic quantum state preparation and transport protocols in chains of Reiburg atoms, utilising blockade mechanism and single-site addressing, with a focus on creating an antiferromagnetic gigahertz state and transporting a single-qubit quantum state. The protocols are designed to operate on shorter time scales than the lifetime of Reiburg states while maintaining high-fidelity output states, and their performance is affected by positional disorder and other sources of noise such as radiative decay. The proposed protocols provide a testbed for evaluating the performance of quantum information-processing platforms based on Reiburg atoms. This article was authored by Mek Ostman, G. Minna, Mateo Marcuzzi, and others.