Automata Network Rolls Out Cross-Network DCAP Attestation, Enhancing Web3 Compute Trust

Automata Network, a top platform offering decentralized infrastructure for compute integrity and privacy, has announced a new development. Automata Network is deploying DCAP Attestation v1.0.0 via UniChain Sepolia to widen the protected smart contract capabilities. The platform disclosed this initiative on its official social media account on X.

We're bringing Automata's DCAP Attestation v1.0.0 to @unichain Sepolia ✧Builders can already integrate secure hardware into smart contracts by verifying Intel SGX and TDX enclaves across 11 networks.Towards making TEEs a composable, trust-minimized primitive in Web3. pic.twitter.com/QS4yPtiNMq

— Automata Network (@AutomataNetwork) May 23, 2025

Automata Network Releases DCAP Attestation v1.0.0 Through UniChain Sepolia

By releasing DCAP Attestation v1.0.0 through UniChain Sepolia, Automata Network is making a notable development. In this respect, it is enhancing integration of the protected hardware-based trust mechanisms apparatuses into the wider Web3 ecosystem. The update facilitates the builders developing on UniChain Sepolia, letting them use Intel’s Trust Domain Extensions and Software Guard Extensions. This enables the verification of the enclaves’ integrity in smart contracts. Enclaves denote protected execution environments working within CPUs.

This capability offers a robust tool to guarantee that contract logic is conducted in a tamper-proof and trustworthy manner. The Data Center Attestation Primitives (DCAP) Attestation v1.0.0 backs attestation across eleven diverse networks. This places it among the most widely compatible solutions operating within the Web3 landscape.

Bridging On-chain Verification and Off-Chain Computation

According to Automata Network, the DCAP Attestation v1.0.0 via UniChain Sepolia underscores another move to make Trusted Execution Environments a trust-minimized and composable primitive. This plays a vital role in filling the gap between the on-chain verification and off-chain computation to unlock a unique wave of privacy-preserving and secure Web3 applications.