Automata Docs
  • Understanding Automata
    • What is Automata?
      • TEE Coprocessor
      • Proof of Machinehood
        • Optimistic Attestation
        • Zero Knowledge Proof
        • Modular Trust
    • Key terms
  • TEE Overview
    • TEE Prover
    • Multi-Prover AVS (EigenLayer)
      • Operator guide
        • Installation
        • Deposit strategies
        • Opt in to run AVS
        • FAQ
    • TEE Compile
      • Getting Started
      • Vendorizing
      • Attestation Report
    • TEE Builder
      • Block Builder Architecture
      • Stateless Executor
    • Verifiable Random Function
      • Why Automata VRF
      • How does Automata VRF work
      • Attestation
  • Build with PoM
    • Introduction
      • Smart contract libraries
      • Attestations on Verax
      • Frequently asked questions
    • Attestation module
      • Machine Attestation
        • Intel SGX
        • AWS Nitro Enclaves
        • Miscellaneous
      • Device Attestation
        • Yubikey
        • Andriod
        • Apple
        • Windows
        • FIDO U2F Authenticator
      • WebAuthn Attestation
        • WebAuthn Attestation Types
        • Attestation Statements & Privacy Impacts
  • Backed by PoM
    • 1RPC
    • L2Faucet
      • Frequently asked questions
  • Protocol
    • App-Specific Rollup
    • Mainnet
    • Testnet
    • Bridge
      • Bridging Native Tokens from L1 to L2
      • Bridging Native Tokens from L2 to L1
    • Explorer
    • Specification
      • Attestation
      • Attestor
      • Smart Contract
  • Research
    • Account Abstraction
    • Decentralized Randomness
    • Maximal Extractable Value
    • Reproducible Build
    • Lightpaper
Powered by GitBook
On this page
  • Introduction
  • Network Info
  • Specification
  • Other Resources

Was this helpful?

  1. Protocol

Mainnet

Get started with your attestation stack in Automata Mainnet

PreviousApp-Specific RollupNextTestnet

Last updated 8 months ago

Was this helpful?

Introduction

We are excited to introduce the Automata Mainnet, which is a OP Stack Rollup Layer 2 (L2) built on top of the and . Optimistic Rollup is a scaling solution for Ethereum that improves transaction throughput and cost-effectiveness by processing transactions off-chain while ensuring the security and integrity of on-chain settlements. It achieves this by bundling multiple transactions into a single rollup block, which is then submitted to the Ethereum Network (Layer 1). This approach significantly reduces the gas fees and increases the throughput of the Ethereum Network.

Network Info

The information about the Automata Mainnet and its corresponding settlement layer Ethereum Mainnet is as follows:

  • Network Name - Automata Mainnet

  • RPC URL -

  • Chain ID - 65536

  • Currency Symbol - ATA

  • Block Explorer URL -

  • Network Name - Ethereum Mainnet

  • RPC URL -

  • Chain ID - 1

  • Currency Symbol - ETH

  • Block Explorer URL -

Specification

  • Settlement Layer(L1) - Ethereum Mainnet

  • Stack - OP Stack

  • Block time - 2 seconds

  • Block Gas Limit - 30,000,000

  • Checkpoint Periods - 1 hour

  • Challenge Periods - 7 days

Other Resources

See your L1 transactions on Ethereum Mainnet's block explorer.

See your L2 transactions on Automata Mainnet's block explorer.

Transfer tokens between Ethereum Mainnet L1 and Automata Mainnet L2. A detailed user guide can be found in .

An on-chain proof of a user's device attestation ability via Automata 2.0, dig in at .

Optimism
AltLayer
https://rpc.ata.network
https://explorer.ata.network
https://1rpc.io/eth
https://etherscan.io
Bridge
here
Proof Of Machinehood
PoM
L1 explorer
L2 explorer