Automata Network
2.7K posts
@AutomataNetwork
Machine attestation layer built on the Superchain. Verifiable machines for apps and agents. All things Automata → https://t.co/FaCwuqz1rO
Most TEE workflows force developers to become infra and security experts Automata Linux standardizes execution across TEEs using a common TPM interface, making execution consistent and verifiable by default → Define a workload once → Run across TEEs → Verify continuously
No shared standard for how TEEs connect to Ethereum. Projects are reinventing the same wheel. This ERC-733 changes that. 1. attestation layer: how trust is established between a TEE and Ethereum on-chain. 2. replication layer: how enclaves pass keys and state to each other safely. 3. interoperability layer: how TEEs connect to external networks without exposing data to host operators. @puffer_unifi is already implementing the attestation layer. On-chain TEE attestation via @AutomataNetwork DCAP which is already in the UniFi stack today. Multi-TEE proving across Intel TDX and AMD SEV (two independent hardware manufacturers), attacker must compromise both. Proof aggregation across multiple independent TEE clients before L1 settlement. I think ERC-733's security maturity model is also the part worth paying attention to. Stage 0 means developer controls everything. Stage 3 means trust fully distributed across hardware and governance. Actually most projects are still at Stage 0. UniFi is building toward Stage 3 — TEE today, TEE+ZK tomorrow. Standardization is how TEE infrastructure goes from interesting to institutional grade. 🐡
@AutomataNetwork has been a key contributor to ERC-733 — their work on on-chain attestation is foundational to making TEE+EVM trustless.
Today, we're launching ZCAM, an iPhone camera app to Prove What’s Real. ZCAM cryptographically signs photos and videos at the moment of capture. Anyone can independently verify the content came from a real device and hasn't been altered or AI-generated.
