In order to make results of computational scientific research findable,
accessible, interoperable and re-usable, it is necessary to decorate them with
standardised metadata. However, there are a number of technical and practical
challenges that make this process difficult to achieve in practice. Here the
implementation of a protocol is presented to tag crystal structures with their
computed properties, without the need of human intervention to curate the data.
This protocol leverages the capabilities of AiiDA, an open-source platform to
manage and automate scientific computational workflows, and TCOD, an
open-access database storing computed materials properties using a well-defined
and exhaustive ontology. Based on these, the complete procedure to deposit
computed data in the TCOD database is automated. All relevant metadata are
extracted from the full provenance information that AiiDA tracks and stores
automatically while managing the calculations. Such a protocol also enables
reproducibility of scientific data in the field of computational materials
science. As a proof of concept, the AiiDA-TCOD interface is used to deposit 170
theoretical structures together with their computed properties and their full
provenance graphs, consisting in over 4600 AiiDA nodes