text content of the tweet, when it was created, and who posted it (foreign key to User). If you like UML, these are the tables and relationships: In order to create these models we need to instantiate a begin working with the data, we’ll define the model classes that correspond to the tables in the diagram. Note In some cases we explicitly specify column names for a particular field. This is so our models

text content of the tweet, when it was created, and who posted it (foreign key to User). If you like UML, these are the tables and relationships: In order to create these models we need to instantiate a begin working with the data, we’ll define the model classes that correspond to the tables in the diagram. Note In some cases we explicitly specify column names for a particular field. This is so our models

text content of the tweet, when it was created, and who posted it (foreign key to User). If you like UML, these are the tables and relationships: In order to create these models we need to instantiate a begin working with the data, we’ll define the model classes that correspond to the tables in the diagram. Note In some cases we explicitly specify column names for a particular field. This is so our models

text content of the tweet, when it was created, and who posted it (foreign key to User). If you like UML, these are the tables and relationships: In order to create these models we need to instantiate a begin working with the data, we’ll define the model classes that correspond to the tables in the diagram. Note In some cases we explicitly specify column names for a particular field. This is so our models

text content of the tweet, when it was created, and who posted it (foreign key to User). If you like UML, these are the tables and relationships: In order to create these models we need to instantiate a begin working with the data, we’ll define the model classes that correspond to the tables in the diagram. Note In some cases we explicitly specify column names for a particular field. This is so our models

content of the message, when it was created, and who posted it (foreign key to User). If you like UML, this is basically what it looks like: Here is what the code looks like: database = SqliteDatabase(DATABASE)

content of the message, when it was created, and who posted it (foreign key to User). If you like UML, this is basically what it looks like: Here is what the code looks like: database = SqliteDatabase(DATABASE)

text content of the tweet, when it was created, and who posted it (foreign key to User). If you like UML, these are the tables and relationships: In order to create these models we need to instantiate a

place during a transaction’s journey from proposal to commitment. Check out the Transaction Flow diagram for a visual representation of consensus. Blockchain network This topic will describe, at a conceptual modification policy. The sample network Before we start, let’s show you what we’re aiming at! Here’s a diagram representing the final state of our sample network. Don’t worry that this might look complicated organizations. Because of the way NC4 is configured, only R1 or R4 can create new consortia. This diagram shows the addition of a new consortium, X1, which defines R1 and R2 as its constituting organizations

place during a transaction’s journey from proposal to commitment. Check out the Transaction Flow diagram for a visual representation of consensus. Blockchain network This topic will describe, at a conceptual modification policy. The sample network Before we start, let’s show you what we’re aiming at! Here’s a diagram representing the final state of our sample network. Don’t worry that this might look complicated organizations. Because of the way NC4 is configured, only R1 or R4 can create new consortia. This diagram shows the addition of a new consortium, X1, which defines R1 and R2 as its constituting organizations