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Effective URL: https://docs.ata.network/automata-2.0/modular-attestation
Submission: On January 11 via api from US — Scanned from DE
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Automata Docs Search βK π Automata 2.0 Modular Attestation Proof of Machinehood π€ Approach Optimistic Attestation Zero Knowledge Proof Modular Trust πΆ Attestation Stack Introduction β Protocol App-Specific Rollup Testnet Bridge Explorer Specification π¦ Attestation Module Machine Attestation Device Attestation WebAuthn Attestation Software Build Attestation π Product 1RPC Carrier L2Faucet π Research Account Abstraction Decentralized Randomness Maximal Extractable Value Reproducible Build β Use Case Proof of Machinehood Private RPC Relay Verifiable Random Function Private Block Building Powered By GitBook Comment on page MODULAR ATTESTATION Proof of Machinehood is an attestation-based approach to creating an unbroken chain of trust within Web3. AUTOMATA IS 2.0 Automata 2.0 is a modular attestation layer that extends machine-level trust to Ethereum, and analogously, Web3. Based on hardware silicon, the application-specific rollup enables on-chain verification for out-of-protocol computation. Ethereum is the base settlement layer for Automata 2.0's attestation layer. It functions as a global verifier that anchors a global, decentralized network of attestations taking place across both hardware and software components. There are a number of emerging uses cases, including the provisioning of fairness and privacy to the RPC relay, bundled transactions through account abstraction, block building within encrypted enclaves, and more. Automata 2.0's modular setup allows the attestation layer to work natively with any pre-existing rollup stack. These layers come together to introduce a novel Attestation Stack with highly configurable components. AltLayer, a leading Rollups-as-a-Service provider, supports Automataβs modular framework with its one-click rollup deployment. The Attestation Stack PROOF OF MACHINEHOOD Proof of Machinehood brings hardware attestations on-chain and makes it possible to establish the authenticity, computational capability, and inherent value of machines. Its current architecture is based approach utilizes optimistic rollups and zero-knowledge proofs as its technological backbone. The rollout of Automata 2.0's testnet is also accompanied by a Proof of Machinehood demo: Proof of Machinehood - Built by Automata Network Proof of Machinehood - Built by Automata Network Hardware attestation establishes a trust base in the machine itself, without the need for excessive computation or capital. This is reinforced by the trust provided by manufacturer's validation. 1. The machine can sign the data it produces, and share the signed data on-chain 2. The machine can further attest the code that it runs, increasing the level of trust for the code A TECHNICAL DIVE: Optimistic Attestation For scalability and data availability Zero Knowledge Proof For privacy and verifiability Modular Trust For usability and composability THE ATTESTATION STACK The Attestation Stack represents the entire tech stack that the modular attestation layer is built on. Attestation Layer Execution Layer Settlement Layer Last modified 1mo ago Was this page helpful? On this page Automata is 2.0 Proof of Machinehood A technical dive: The Attestation Stack To pick up a draggable item, press the space bar. While dragging, use the arrow keys to move the item. Press space again to drop the item in its new position, or press escape to cancel. CookiesThis site uses cookies to deliver its service and to analyse traffic. By browsing this site, you accept the cookie policy. Reject all π Automata 2.0 Modular Attestation Proof of Machinehood π€ Approach Optimistic Attestation Zero Knowledge Proof Modular Trust πΆ Attestation Stack Introduction β Protocol App-Specific Rollup Testnet Bridge Explorer Specification π¦ Attestation Module Machine Attestation Device Attestation WebAuthn Attestation Software Build Attestation π Product 1RPC Carrier L2Faucet π Research Account Abstraction Decentralized Randomness Maximal Extractable Value Reproducible Build β Use Case Proof of Machinehood Private RPC Relay Verifiable Random Function Private Block Building Powered By GitBook