Understanding the design mechanics of decentralized systems can be challenging – especially if you don’t come from a computer science background. Most people struggle to comprehend how a blockchain works and that doesn’t bode well for the industry.
Having worked in the space for several years now, we believe it’s fundamental to educate yourself on all the key elements that enable a decentralized network to run – particularly if you are professionally involved in the industry.
Out of everything you will need to learn, mastering what is known as the token economics or crypto economics of a network is perhaps the most critical element.
In its simplest form, crypto economics refers to the use of economics (through incentives) and cryptography (through encryption) to design a secure system or network with predefined desired properties.
– The cryptography underlying these systems allow communication and interactions between untrusted peers in the network to be proved and secured.
– The economic incentives defined inside the system encourages all actors to behave in a way that holds desired properties and enables the network to operate smoothly, deter malicious behavior and thrive over time.
It is designing favorable incentives that are both the genesis and the goal for a system to become a robust decentralized network to thrive against malicious actors attempting to disrupt the network.
When Satoshi Nakamoto developed the Bitcoin blockchain, the first decentralized digital currency, and implemented a Proof of Work (PoW) protocol to the system he/she/they were doing so to secure the network through cryptography and using an incentive system for settlement.
Explaining the Proof of Work consensus algorithm demands an entire article by itself, but in a nutshell, it is what allows transactions on the blockchain to take place. Through it, members of the network with high levels of computing power (called miners) prove that a specified amount of work has been completed in order to validate transactions.
Crypto economics enables parties who do not know one another to reach consensus about the state of a blockchain. Without the application of crypto economic principles, decentralized networks like Bitcoin and Ethereum simply cannot work. And so, it is the elements of crypto economics – cryptography and economic incentives that allow the creation of decentralized networks and the ability of these networks to reach consensus, without the need to rely on a trusted central authority.
Building sound incentive mechanisms into a decentralized system that has no trusted or central authority is a complex task. The main reason for this is that crypto economics attempts to combine the “perfect” world of technically implemented rules with the unpredictable behaviors of human nature.
Crypto economics of a token is a hybrid between programmatic rules implemented and the entire world of interactions real human beings have with it.
The difference between crypto economics and traditional economics is that the latter is a product of centuries of research, governance, and observations of social dynamics. It is more appropriate to talk about partly designed, partly discovered, partly self-evolved economies than talking about designed economies.
In contrast, thinking (or designing) the crypto economics elements of a network demands that most of its characteristics be designed from inception. It requires designing predefined rules based on all the possible ways human beings can interact with the system. Accordingly, designing good rules entails understanding and predicting the way humans will interact within a decentralized system.
This is what makes cryptocurrencies so hard. We are not used to designing economic structures from scratch, and predicting all future human interactions is close to impossible. We are entering new territory and learning on the fly.
At the same time, this is the reason why crypto economics is so essential. If rules are not correctly defined, a decentralized system is bound to collapse and fail. This is where proper mechanism design comes in. Mechanism design is a field in economics and game theory focused on designing mechanisms to incentivize or disincentivize behaviors within a system toward desired objectives.
At the core of crypto economics, a token exists as the primary tool to control a protocol’s micro-economy. A well-designed system properly manages the incentives and distribution of tokens within the corresponding network of participants. Decentralized systems thrive when tokenized incentives are accurately aligned.
Crypto economics is helping us create systems where those who adhere to and protect the rules of the game receive rewards, while those attempting to break the rules face financial walls which disincentivize their behavior thus safeguarding the network. In Bitcoin, for example, miners who are honest and verify transactions receive block rewards (currently 12.5 new minted bitcoin plus fees) for their work, while those who are dishonest face wasting their computing power, energy, and money, making it an expensive, unprofitable and fruitless endeavor.
Lately, the ever going ICO craze has diverted attention away from the importance of tokens within a decentralized system. ICOs are an innovative way to raise capital from a wider audience of supporters without having to give away any shares of a company. However, it is essential to understand that tokens are not just a tool for an ICO, but a vital cog in a decentralized system’s ability to function.
Tokens must be an integral element of the network in which they exist to have any value. A token’s utility should be what secures and governs the behavior of the users within the network. Failure to achieve this will ultimately result in the failure of a system. Conversely, decentralized networks that effectively utilize crypto economic principles to operate can offer new and innovative network constraints built with internal mandates and incentives that encourage all stakeholders to act in the interest of the network.
The Radix core is designed to be fast, fair, and simple. Due to its highly efficient consensus mechanism, anyone can run a node on standard commercial hardware. Every network participant is a first-class citizen of the network, and you don't require high computing power or starting capital to be a helpful participant of the network. Moreover, due to its highly sharded nature, any type of device, depending on its computational and storage capacity will support the network as much as it can manage to. This reduces the barrier to entry massively, creating a fair participating ground everyone and effectively eliminating miner centralization and thus enabling conditions for maximum decentralization.
In the Radix network, each node keeps a full/partial copy of the ledger known as shards. Each node communicates and collaborates with each other to validate, secure and maintain the distributed ledger.
If you are the submission node and you did the useful work of validating, storing and communicating a new transaction along with the other neighboring nodes in your shard, then you get the transaction fee.
Moreover, all nodes that generate valid temporal proofs in supporting the network are also chosen to earn a partial reward out of the new token supply minted by the monetary supply policy.
Thus, Reward is a function of adding both fees earned by validating transactions and funds earned from total supply inflation.