Introduction
When Bitcoin was launched, it laid the foundations for an industry revolving around the technology that underpins the protocol: blockchain. Eager innovators have now discovered the potential of the tech, and are exploring its applications in every conceivable industry.
To carry on with our spreadsheet analogy, the document itself would be held by many parties. Each runs specialized software on their device, which connects with other devices running the software so that all participants are in possession of an up-to-date database.Â
In the following piece, weâre going to look at three kinds of blockchains â private, public, and consortium chains. Before that, let's reiterate on some key features that all three have in common:
- An append-only ledger â to qualify as a blockchain, a system needs to follow the chain of blocks structure, wherein each block is linked to the last. If our blockchain is the collection of cells in our spreadsheet, the blocks are the individual cells.
- A network of peers â every participant on the network holds a copy of the blockchain. These participants are called nodes, and they interact in a peer-to-peer fashion.
- A consensus mechanism â there must be a mechanism for nodes to agree upon the correctness of transactions propagated across the network, to ensure that there is no bogus data being written to the chain.
The table below sums up some of the major differences.
Blockchain type | |||
Public | Private | Consortium | |
Permissionless? | Yes | No | No |
Who can read? | Anyone | Invited users only | Depends |
Who can write? | Anyone | Approved participants | Approved participants |
Ownership | Nobody | Single entity | Multiple entities |
Participants known? | No | Yes | Yes |
Transaction speed | Slow | Fast | Fast |
Public blockchains
If youâve used a cryptocurrency recently, chances are youâve interacted with a public blockchain. These make up the overwhelming majority of distributed ledgers that exist today. We call them public because anyone can view the transactions that take place, and joining is a simple matter of downloading the necessary software.
In the same vein, we would expect a public blockchain to be more censorship-resistant than a private (or semi-private one). As anyone can join the network, the protocol must incorporate certain mechanisms to prevent malicious actors from anonymously gaining an advantage.
The security-oriented approach on public chains does come with trade-offs on the performance front, however. Many encounter scaling obstacles and throughput is relatively weak. Moreover, pushing changes to a network without splintering it can be a challenge, as it is rare that all participants agree on the proposed changes.
Private Blockchains
Private chains are better suited to enterprise settings, where an organization wants to enjoy blockchain properties without making their network externally accessible.
Consortium Blockchains
The consortium blockchain sits on the fence between public and private chains, combining elements from both. The most notable difference from either system can be observed at the consensus level. Instead of an open system where anyone can validate blocks or a closed one where only a single entity appoints block producers, a consortium chain sees a handful of equally-powerful parties function as validators.
A consortium blockchain would be most beneficial in a setting where multiple organizations operate in the same industry, and require a common ground on which to carry out transactions or relay information. Joining a consortium of this kind could be beneficial to an organization, as it would allow them to share insights into their industry with other players.
Which is superior?
Fundamentally, public, private, and consortium blockchains are not at odds â they're different technologies:
- Well-designed public chains tend to excel when it comes to censorship-resistance, at the cost of speed and throughput. These are best for greater security assurances on transaction settlements (or smart contracts).
- A private chain can prioritize the system's speed as it doesnât need to worry about central points of failure to the extent that public blockchains do. These are ideally deployed in situations where an individual or organization must remain in control, and information kept private.
- Consortium chains mitigate some of the counterparty risks of a private chain (by removing centralized control), and a smaller node count generally allows them to perform much more effectively that a public chain. Consortiums are likely to appeal to organizations that want to streamline communication amongst one another.
Closing Thoughts
A myriad of blockchain options exists for individuals and businesses engaging in various activities. Even within the categories of public, private, and consortium blockchains, there are a number of intricacies that lead to different user experiences. Depending on the use case, users will need to select that which is best suited to achieving their own goals.