How does NGK solve parallel problems through computing power?
As we all know, the blockchain project can have a new start after solving the parallel problem.
There have been many projects characterized by expansion during the past few years of the crypto network development. However, not many of them can create significant solutions. For example, the homogeneous sharding of Ethereum 2.0 and the heterogeneous sharding constructed by Polkadot, the sidechain of Plasma, zkSync, Optimistic, StarkWare, and other cross-chain structures (with cross-chain expansion) such as layer2 and the COSMOS. These projects are constantly looking for the most suitable expansion method based on the blockchain structure of Ethereum and Bitcoin. The Ethereum 2.0 has attracted the highest attention. It focuses on PoW and switches from the PoS, then compresses transaction data (rollup), and shapes the sharding structure (e.g. sharding, non-data sharding). This method belongs to the ultimate idea of the cryptocurrency network, but it cannot be denied that this is an extremely necessary long-term road. While NGK has taken a unique path.
In essence, the advantages and limitations of the blockchain structure are obvious. If you want to innovate, if you do not break the ceiling brought by the blockchain structure, it seems difficult for the industry to move to the next step. I believe that innovation must learn from many mature industries and technology systems.
NGK does not have the time limit like ordinary block structure. It needs the help of a transaction validator to confirm which transactions to form a consensus.
NGK has improved the algorithmic computing power. It also matches with subnets, data centers, and containers. Subnets are like “shards”. The data center is the underlying network deployment of the NGK network. It requires the participation of the data center, which means the basic processing power of the network is very strong. The container is an established independent operation unit on the subnet, which can be analogous to the smart contract of the blockchain. The combination and interaction of the container can achieve complexity.
After the NGK algorithm processes the data in parallel, it packages and saves the storage copy and time-space proofs. These parts ensure the consistency of the NGK general ledger. The other development parts rely on tools provided by the official team and ecosystem.
I believe that how to make these features available to developers through the development of network tools. The most important thing for the application of the NGK cryptocurrency network is to develop DApps and wide decentralized businesses.
Even if the performance of the infrastructure is great, the infrastructure will be futile without the developer’s application time. The developer determines the amount of application generated on the chain, and the amount of application generation determines the value created and contained by the chain.
Like traditional Internet developers, the cloud computing platform has provided developers with an extremely high-quality experience from the hardship of basic development to the era of cloud development. The later entrepreneurs, unlike those in the past, must worry about capacity expansion.
I dare to ask whether today’s cryptocurrency network can take the “service-oriented architecture” of the cloud computing platform as an example to create a development trend. After the parallelization of cloudification, the cryptocurrency has only broken through the wellhead. Can you continue to rise up to the sky?