Application Ecosystem

Compute Power Demanders (B-end)

Compute power demanders (B-end) will purchase tokens from exchanges (whether CEX or DEX) and pay them to the nodes they call, which will continue to be a component of token incentives for nodes. Compute power demanders are the main source of market demand for decentralized cloud computing services. They need to use cloud computing resources to process a variety of computing tasks, including data storage, data analysis, artificial intelligence training, and more.

The market interaction between compute power demanders and compute power providers determines the price of computing resources. Factors such as the demand and budget constraints of demanders affect the price formation of computing resources in the market. In decentralized cloud computing services, a market-based pricing mechanism helps to create an efficient and transparent computing resource market.

DAPPs

Smart contracts are the core components of DAPPs and are used to write, deploy, and execute program logic on the blockchain. Smart contracts provide DAPPs with a programmable, automated, and trustless execution environment. In the early stages of the project's release, the entire DMCN ecosystem, including DAPPs, will be deployed on the BSC public chain.

In providing machine learning application solutions, compute power demand and data demand are two major pain points that urgently need to be solved (the third pain point is the knowledge base of ground-truth labeling). The DMCN protocol can establish a virtuous and powerful compute power market by connecting a large number of distributed cloud computing mobile nodes, thereby solving the compute power demand; while the data demand can be solved by FindData, a data mining and data analysis DAPP that is highly compatible with distributed cloud computing, which has already been deployed in the DMCN ecosystem. The DMCN Foundation will also continue to incentivize the development and innovation of DAPPs and is committed to creating a vibrant DMCN ecosystem that can meet a variety of computing needs.