The NewEternalLife Blockchain will be a fully decentralized, fast, and secure blockchain.
It is a Layer-1 Proof-of-Work blockchain, where the transaction speed is extremely high. We utilize the latest technologies in the field of encryption, meaning our system employs the ED25519 encryption technique, which is 64 characters long and among the safest encryption technologies available today.
Furthermore, functioning bridges to other blockchains are already in place, with supported blockchains constantly being expanded to enable comprehensive communication.
The NewEternalLife Blockchain is distributed across thousands of independent nodes - ensuring your transactions are secure at all times!
These are blockchain-based domain names that offer permanent ownership rights, censorship resistance, and user-friendly addresses for crypto wallets and decentralized websites.
They are immune to interference and simplify the receipt of crypto payments through easily memorable addresses. These domains promote the development of a freer and more secure decentralized internet.
Mesh Network
The NewEternalLife Mesh Network provides a decentralized network structure that allows nodes to communicate directly and dynamically with each other.
This promotes increased fault tolerance, scalability, and resistance to censorship, as there are no central points that can fail or be attacked.
Mesh networks support the decentralized nature of blockchain technologies by enabling efficient and secure data transmission among participants.
Decentralized and Secure
The NewEternalLife Blockchain is spread over thousands of independent Nodes – so your Transactions are safe all the time.
Mining
In our NewEternalLife app, we offer everyone the opportunity to participate in the mining process. The mining devices are characterized by a particularly low energy consumption of only 8-18 Watts!
Moreover, each of these devices acts as a node in the Mesh Network. With each additional device that is activated, the overall performance and reliability of our network are enhanced.