Efficient Gas Management with zkMiners

The SurferMonkey ecosystem has recognized a significant challenge in gas consumption during the execution of user leaf injection into the Merkle Tree. Updating all the Merkle Tree levels to refresh the Merkle Root is a time-consuming and costly process that occurs each time there is a user leaf. However, maintaining the Merkle Trees on the Smart Contracts is advantageous as the zkMiners only have to handle the data from the Merkle Roots, encapsulating all user data and ensuring unbiased censorship resistance.

To address this challenge, the SurferMonkey tokenomics introduces the implementation of zkMiners. These miners will locally generate the Merkle Roots, substantially reducing gas consumption during user leaf injection.

The zkMiners play a crucial role in maintaining the efficiency and cost-effectiveness of the SurferMonkey ecosystem. In order to motivate the zkMiners to participate actively in the network, they will receive incentives in the form of the WaveGuard (WAGU) token. This reward mechanism ensures that zkMiners are fairly compensated for their contributions, fostering a healthy and engaged community.

By implementing zkMiners and a robust incentive system, SurferMonkey's tokenomics tackles a significant challenge in gas consumption during Merkle Tree updates. This approach not only minimizes gas consumption but also creates a sustainable environment for zkMiners. As a result, the SurferMonkey ecosystem becomes more efficient and cost-effective, benefiting both users and developers within the ecosystem.