CKB 中文

Recently, with the continuous popularity of the Bitcoin Layer2 sector and the continuous rise in the price of Nervos CKB, more and more friends have started to pay attention to the "Bytecoin CKB" public account. Many new followers have left messages in the background asking: How much is the total supply of CKB? How much is issued each year? Can I still get on board? How much is it worth this year?

Regarding the economic model of CKB, Bytecoin has previously written two articles, "Talking about the most misunderstood CKB economic model and inflation rate" and "In-depth understanding of Nervos' token economics". Today, based on these articles, we will use more understandable language to introduce in detail the economic model of CKB and its clever design.

Detailed Explanation of CKB Economic Model#

As of February 28, 2024, according to ckbdapps.com statistics, the total supply of CKB is 44.318 billion (this number includes 9.718 billion Nervos DAO locked CKB):

These CKB mainly come from three sources:

• Genesis Block
• Primary Issuance (Base Issuance)
• Secondary Issuance

In the Genesis Block, a total of 33.6 billion CKB were issued. To pay tribute to Satoshi Nakamoto, 8.4 billion CKB were initially sent to Satoshi Nakamoto's address (this can be considered as a black hole address, unless Satoshi Nakamoto "resurrects" and retrieves these CKB with a private key).

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The remaining 25.2 billion CKB in the Genesis Block were mainly allocated to institutional investors, ecological funds, development teams, and public investors. These CKB were time-locked, but have now been unlocked.

After the Genesis Block was born, the issuance of CKB is divided into two parts: primary issuance (base issuance) and secondary issuance.

The total amount of primary issuance is also 33.6 billion CKB, mainly rewarded to miners. Its issuance mechanism is similar to Bitcoin, halving approximately every four years until all are issued. In November last year, CKB experienced its first mining output halving.

The secondary issuance issues a fixed amount of 1.344 billion CKB per year, which is distributed proportionally to:

• Miners: Proportional to the on-chain state occupancy.
• Nervos DAO: Proportional to the proportion of CKB locked in Nervos DAO to the total issuance.
• Treasury: Proportional to the proportion of circulating CKB to the total issuance. Currently, due to the incomplete governance mechanism, this part is directly burned.

For example, assuming that 60% of the issued CKB is used for on-chain state occupancy and 20% is locked in Nervos DAO, miners will receive approximately 806.4 million CKB in secondary issuance rewards each year, and Nervos DAO depositors will evenly split approximately 268.8 million CKB. The remaining 20%, which is 268.8 million CKB, will be directly burned.

According to data from the CKB Explorer, the accumulated CKB rewards for miners account for 11.5% of the secondary issuance, the CKB rewards for Nervos DAO depositors account for 19.1%, and the burned CKB accounts for the majority at 69.5%. Over 4 billion CKB have been burned so far.

Clever Aspects of CKB Economic Model#

In Bytecoin's view, the economic model design of CKB has four clever aspects:

1. Continuous Protection of CKB by Miners through Secondary Issuance

Many friends may wonder: Why does CKB have secondary issuance in addition to primary issuance? Isn't it good to be like Bitcoin?

In Bitcoin, miners' income comes from two parts: block rewards (currently the majority) and transaction fees (miner fees). The block rewards are halved approximately every four years until all bitcoins are mined by 2140; transaction fees mainly depend on on-chain activity.

Let's imagine that after a dozen or dozens of years, Bitcoin's block rewards have been halved multiple times and become negligible. Miners can only rely on transaction fees, but Bitcoin's performance is limited, which means that there is an upper limit to on-chain activity. Therefore, the price of BTC needs to rise very high to incentivize miners to continue investing in hash power to protect network security. However, a high price of BTC will also limit on-chain activity because high transaction fees will reduce transaction frequency or cause people to switch to Layer2 or other chains for transactions.

The secondary issuance of CKB ensures that even after multiple halvings of mining output, miners will be compensated for permanently protecting the network's security, regardless of how much on-chain transaction volume there is.

2. Constrained Growth of Global State to Solve State Explosion Problem

CKB binds data storage with its native token CKB, constraining the growth of the global state. CKB tokens represent the right to occupy the global state, with one CKB token equal to one byte of space on the blockchain. This means that the state of the blockchain is limited by the supply of CKB tokens, making it a scarce resource.

As of February 28, 2024, the total supply of CKB is approximately 44.3 billion, which means that the maximum storage capacity of the CKB blockchain is about 44.3 GB. After the first halving (November 2023), the inflation rate is approximately 3.444 billion CKB per year (actually lower because the CKB allocated to the treasury is directly burned), which means that the size of the CKB blockchain can only expand by about 3.444 GB per year. The halving event every four years in the future will further reduce the growth rate of the state, eventually reaching an annual increase of 1.344 GB of storage capacity.

The state on CKB is directly owned and controlled by users, and it is essentially privatized. The state is stored in cells similar to Bitcoin's UTXO and is a first-class citizen on the chain. The storage space on CKB is like land, and its total size is limited. Users must own and lock CKB to occupy it.

The secondary issuance of CKB is actually a "state rent" imposed on the holders of on-chain state because the secondary issuance continuously incentivizes miners based on the on-chain state occupancy. Long-term holders of CKB (not storing data on-chain) can lock their CKB in NervosDAO to receive a subsidy from the secondary issuance (to avoid dilution caused by the secondary issuance). When "state occupiers" no longer need to use scarce state space, they can destroy the cell occupying that space (state pruning), release the locked CKB, and store it in NervosDAO to stop paying state rent.

Therefore, CKB collects rent for the state through targeted inflation, solving the common economic mismatch problem of users paying once and permanently occupying on-chain state.

3. Value Capture and Achieving Flywheel Effect

If Bitcoin can be compared to digital gold, then CKB is digital land, with one CKB equal to one byte of space on the blockchain.

The land in a city is used for various purposes, such as building schools, parks, shopping malls, office buildings... Once built, this land is temporarily "locked" and cannot be used for trading and circulation. Similarly, CKB is an asset storage network, and as more on-chain ecological projects and more on-chain assets are formed, more CKB will be locked because storing anything on the CKB chain (state, contract information, scripts, etc.) requires occupying on-chain space.

Here are a few examples:

• For a new CKB address, if you want to store CKB in it, you need to deploy relevant information, which requires a minimum of 61 bytes of on-chain space, which means locking 61 CKB on the chain. If it is NervosDAO, it needs to lock 102 CKB because NervosDAO requires more on-chain storage information and a larger cell capacity.
• .bit stores account information on the CKB chain, which also requires occupying a certain amount of on-chain storage space. Therefore, each .bit account will charge a storage deposit of 206 CKB and lock it.
• Assets issued on the CKB chain, whether fungible tokens or NFTs, require occupying on-chain space. For example, the first inscription project based on the Omiga Inscription Protocol, the token MEMES is essentially an xUDT (fungible token) issued on the CKB chain, which requires a cell capacity of 145 bytes, so it needs to lock 145 CKB.

In the foreseeable future, assets issued and contracts deployed based on the RGB++ protocol, NFT assets issued based on the Spore protocol, and other ecological applications on CKB will occupy a large amount of on-chain space and require locking a large amount of CKB.

Therefore, the more prosperous the on-chain ecological projects on CKB, the more on-chain assets, the more CKB will be locked, the less CKB will be in circulation, further increasing the scarcity of CKB and achieving a flywheel effect.

4. Providing Value Support for Assets

As mentioned earlier, one CKB equals one byte of space on the blockchain, and occupying space requires locking CKB, which brings value support to many on-chain assets.

Taking the Spore protocol as an example, it is an NFT protocol where all data is on-chain, providing various content support, not limited to offline links, but also supporting images, audio, video, text, and other content types. The amount of CKB that each Spore NFT occupies depends on how much on-chain space is required for storing the content on the chain (each Spore NFT is a cell, so it depends on the size of the cell).

Suppose we have a Spore NFT named Test that occupies 200 bytes of on-chain space, which locks 200 CKB. Its intrinsic value is 200 CKB, and its price is the intrinsic value plus the brand premium of the NFT. The rise in the price of CKB will also increase the value of the NFT. If the price of Test falls below 200 CKB, arbitrageurs or users can buy a large amount and then melt it down to retrieve the 200 CKB locked by each NFT.

Conclusion#

As a PoW public chain, CKB has a relatively high inflation rate in the first four years, but after the first halving event, its nominal inflation rate has dropped to below 6.2%, and the actual inflation rate (for Nervos DAO depositors) has dropped to below 3.8%.

In addition to primary issuance, CKB also has the original secondary issuance mechanism, which ensures that even after all primary issuance CKB is mined, miners will be compensated for permanently protecting the network's security, regardless of the on-chain transaction volume. Furthermore, by binding data storage with its native token CKB, CKB constrains the growth of the global state and enables CKB to capture value, achieve a flywheel effect, and bring value support to many other on-chain assets on CKB.

If you want to have a deeper understanding of the CKB economic model, please read the "CKB Economic Model Whitepaper".