Skip to main content

No project description provided

Project description

Data Dictionary

The data dictionary provides the first level of validation for all data stored in and generated by the BPA. Written in YAML, JSON schemas define all the individual entities (nodes) in the data model. Moreover, these schemas define all of the relationships (links) between the nodes. Finally, the schemas define the valid key-value pairs that can be used to describe the nodes.

Data Dictionary Structure

The Data Model covers all of the nodes within the as well as the relationships between the different types of nodes. All of the nodes in the data model are strongly typed and individually defined for a specific data type. For example, submitted files can come in different forms, such as aligned or unaligned reads; within the model we have two separately defined nodes for Submitted Unaligned Reads and Submitted Aligned Reads. Doing such allows for faster querying of the data model as well as providing a clear and concise representation of the data in the BPA.

Beyond node type, there are also a number of extensions used to further define the nodes within the data model. Nodes are grouped up into categories that represent broad roles for the node such as analysis or biospecimen. Additionally, nodes are defined within their Program or Project and have descriptions of their use. All nodes also have a series of systemProperties; these properties are those that will be automatically filled by the system unless otherwise defined by the user. These basic properties define the node itself but still need to be placed into the model.

The model itself is represented as a graph. Within the schema are defined links; these links point from child to parent with Program being the root of the graph. The links also contain a backref that allows for a parent to point back to a child. Other features of the link include a semantic label that describes the relationship between the two nodes, a multiplicity property that describes the numeric relationship from the child to the parent, and a requirement property to define whether a node must have that link. Taken all together the nodes and links create the directed graph of the Data Model.

Node Properties and Examples

Each node contains a series of potential key-value pairs (properties) that can be used to characterize the data they represent. Some properties are categorized as required or preferred. If a submission lacks a required property, it cannot be accepted. Preferred properties can denote two things: the property is being highlighted as it has become more desired by the community or the property is being promoted to required. All properties not designated either required or preferred are still sought by BPA, but submissions without them are allowed.

The properties have further validation through their entries. Legal values are defined in each property. For the most part these are represented in the enum categories although some keys, such as submitter_id, will allow any string value as a valid entry. Other numeric properties can have maximum and minimum values to limit valid entries. For examples of what a valid entry would look like, each node has a mock submission located in the examples/valid/ directory.

Contributing

Read how to contribute here.

Project details


Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

gen3dictionary-2.0.4.tar.gz (48.1 kB view details)

Uploaded Source

File details

Details for the file gen3dictionary-2.0.4.tar.gz.

File metadata

  • Download URL: gen3dictionary-2.0.4.tar.gz
  • Upload date:
  • Size: 48.1 kB
  • Tags: Source
  • Uploaded using Trusted Publishing? No
  • Uploaded via: poetry/1.8.3 CPython/3.9.18 Linux/6.8.0-1014-gcp

File hashes

Hashes for gen3dictionary-2.0.4.tar.gz
Algorithm Hash digest
SHA256 6a798008f32c4a5c1833fbc03e841ebe12bb5b743812ec7c00211c0268f15c05
MD5 ce4562651fe10e5e1c83ff8deb0d1046
BLAKE2b-256 0c9d021dbd2f60d8d7e6d9b2a1308ea45e185c2dbf87489ee87f87c738cd8256

See more details on using hashes here.

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page