How a Blockchain Works
By Ken Moyle
1. Distributed Database
Each party on a blockchain has access to the entire database and its complete history. No single party controls the data or the information. Every party can verify the records of its transaction partners directly, without an intermediary.
2. Peer-to-Peer TransmissionCommunication occurs directly between peers instead of through a central node. Each node stores and forwards information to all other nodes.
3. Transparency with PseudonymityEvery transaction and its associated value are visible to anyone with access to the system. Each node, or user, on a blockchain has a unique 30-plus-character alphanumeric address that identifies it. Users can choose to remain anonymous or provide proof of their identity to others. Transactions occur between blockchain addresses.
4. Irreversibility of RecordsOnce a transaction is entered in the database and the accounts are updated, the records cannot be altered, because they’re linked to every transaction record that came before them (hence the term “chain”). Various computational algorithms and approaches are deployed to ensure that the recording on the database is permanent, chronologically ordered, and available to all others on the network.
5. Computational LogicThe digital nature of the ledger means that blockchain transactions can be tied to computational logic and in essence programmed. So users can set up algorithms and rules that automatically trigger transactions between nodes.
Thanks to Michael Mainelli of Harvard Business Review for this concise list. Read Michael's full article, Blockchain Will Help Us Prove Our Identities in a Digital World.