ZEROBASE uses a 'ZK + TEE' three-layer architecture to tell you the answer.
TEE Layer: ZK circuits, strategies, and nodes run in a hardware-isolated secure environment TEE, ensuring the execution process is tamper-proof and data is always encrypted. Everything runs in a 'vault' that cannot be altered or seen by anyone.
ZK Layer: The key execution results of the TEE layer are transformed into verifiable zero-knowledge proofs, supporting range proofs, validity proofs, state transition proofs, etc. Anyone can verify correctness, but no one knows the execution details.
Proof Mesh Layer: Connecting on-chain and off-chain proof mediation layer. Responsible for unifying formatting, labeling, and managing all ZK proofs from the TEE.
This is not a concept; it is a real collaborative network that anyone can participate in.
What does a collaborative network that anyone can participate in look like?
In ZEROBASE, different types of users have corresponding participation methods, requiring no advanced technology, allowing them to contribute resources and earn rewards:
ZEROBASE EARN will build a cross-platform protocol supporting PCs, mobile phones, and NAS, allowing devices to continuously generate income every day.
ZEROBASE Staking, under the dual guarantee of TEE + ZK, stakes USDT/USDC stablecoins to earn income from arbitrage strategies and the ZEROBASE Prover network.
ZEROBASE Ecosystem, in ZEROBASE, developers can call ecological products like zkLogin, zkVote, zkDarkPool, etc., to build safer and more efficient dApps, enhancing trust in decentralized ecosystems.
Deeply embedding trust as infrastructure in the Web3 financial system, Staking and third-party verifiers ensure the authenticity and validity of proofs.
ZEROBASE advocates for 'trustless structural collaboration':
Strategic privacy and risk verification
Developing interface standardization
Non-consensus cooperation between protocols
Those who know do not speak; those who speak do not know. We will prove it to the world!
#ZEROBASE #ZK