By using self-developed technologies, we solve the problems of blockchain (decentralization, security, scalability, high gas fee). We provide an environment that guarantees real-time performance.

Smart auto mining (SAM) is used for resource-efficient mining in a blockchain network. The SAM algorithm stops the miners when there is zero pending transactions and starts the miner when there is at least one transaction sent into the network. The miner listens to the network to identify when a transaction has been made by a node. The nodes does not need any instruction to start mining when there is a pending transaction. The implementation of SAM will eliminate the randomization of traditional mining algorithms and the waste of computational resources enabling scalability while maintaining computational complexity.

SAM+ is an upgrade of existing SAM technology that optimizes the transaction processing time, significantly reducing the energy required to power the network. The upgrade to SAM+ was implemented by considering: The mining requirements before mining is more explicitly to set Gas0. signifying not transactions according to the size of each block, Considering when to use or not use the mining state, Using more fine metrics to measure and validate mining times.

The purpose of POA2 is to investigate and improve the security, performance, and trustworthiness of a POA blockchain network. It proposes the introduction of a standby validator in the network, which monitors and follows up other activities of validators on the network. The network signers automatically vote for the standby of validators. The POA2 is proposed for introducing all risk mitigation instruments associated with the network, while validators are elected based on real identity, reputation, and experience. In order to ensure the smooth operation of the blockchain network, POS 2.0 introduces a hierarchy cycle for the transfer of authority to a new signer to reduce the machine era. The POA consensus method that will be implemented in this research in Chaia-Gen can accept even a single validator, and end up enabling far more smart contract variants.

To appreciate and new signers and remove old ones, the protocol specifies a voting mechanism using the cleft method + authorize and unauthorized signer. The privilege system, using functions: Generators and Signers of dropped block start the list the candidates when the consensus starts. Chaia-Gen automatically creates the list of candidates nodes. The list will contain all nodes, which have been registered as candidates and have passed validator limits. The current signers are also present in cleft/mirror as readonly/functional node. Once your = half + 1 signers authorize a signer, the signer is immediately removed from the list, and all future blocks created are included in the chain.

The following attributes are required to implement POA2 in a blockchain network:
- The identity of signer is required to ensure the integrity of the blockchain
- Eligible node must have their public key registered into the chain by a legal authority
- Eligible nodes are considered active on a long-term commitment

NSL L2 makes use of Zk-Rollups technology together with two core technologies developed by NSL, Smart Auto Mining (SAM+) and Proof of Authority (PoA2). "NSL SAM fund mining optimizes transaction mining on an on and off operation which significantly reduces the energy required to power the network." NSL Zero-knowledge rollups (ZK-rollups) are becoming an increasingly popular layer 2 (L2) scaling solution for blockchain networks. Not only enhance blockchain scalability but also significantly reduces the gas cost for blockchain operations.

NSL L2 is made up to five main components; the ServerSequencer, Aggregator and Prover, Genesis contract and the bridge. The buildinfo basic blockchain includes whatever is necessary for any zk/sVM rollup.It tracks all of the server, aggregator and committer algorithm. The zk/evm architecture in itself is made of a smart layer that comes together when both sides of the code is pulled and packaged in zk/evm (Block producer and Aggregator).ln NSL-L2 zk/sVM rollup blocks are sequenced by an arbitrary block producer. lt means that rollbacks always message the state of server before batch transactions in any of the two roles: Server(Sequencer) or Aggregator and Prover.

This blockchain network is compatible with the Ethereum Virtual Machine (EVM). It is a layer 1 solution, however, with the SAM+ and PoA2 model to improve efficiency and reliability respectively. The consensus protocol improvement in the Chaia protocol, a proof of authority consensus mechanism, proposes a hierarchical authority structure between nodes. NSL-Layer1 blockchain is built on the combination of PoA2 and SAM+ model. Therefore, to participate in block production, a validator must be verified by having their public key registered in the chain with a digital signature.

Each block result is verified easy to improve the scalability and stability of the conventional PoA network. A making smart contract will also be implemented to manage the distribution of cryptocurrency on the network.

By matching one staking smart contract, users can receive coin according to the PoS(Proportional spend to how much and for how long). The miners who mine empty block, create blocks with illegal transactions or malicious blocks will be penalized by having their stakes frozen. The mining of blocks will decentralized by block events. The mining operator is the bundler of committed entities whose integrity and reputation have been verified.

The semi-centralized layer 2 consists of three active levels:The Mainnet, the Smart Contract, the JavaScript and the RFS. The system is made up of middleware new work to identify and link users to the smart contract which is uslility:The smart contract acts as a bridge to the Mainnet which offers a low level of scalability.The JavaScript act as a middleware between smart contract and front-end and the RFS acts as middleware between JavaScript. By using the interface created at the JavaScript level, it aims to provide an extra level of security and a feel for decentralization, user need to be identified and are onboarded on the RFS layer then gets protocol onboarded on the smart contract level and then standard participant user onboarded and gets verified to ensure they meet all requirements. Using NSL centralized layer each protocol and participants will be stored at different levels of the platform by various participants.