EnviDa Protocol
  • 🌍About Envida Blockchain
    • Introduction
    • Overview
    • Why EnviDa?
    • How it works?
    • Understanding the EnviDa Blockchain
    • DeFi Essentials
    • The Joint Potential of Blockchain, IOT and AI
  • πŸš™What is DriveMiner?
    • Environmental Tracking Devices
    • The Cost of Mining
    • The Solution of Mining
    • POW Consensus
    • Technical Specs
    • Device Sales and ROI
  • πŸ’°$EDAT Tokenomics
    • Detailed EDAT Tokenomics
    • ICO and Token Listings
    • Token Unlock and Allocation
    • Game Theory
  • πŸ“ˆStaking and Rewards
    • Reward Distribution
    • DriveMining Rewards
    • Validator Rewards
      • Unstaking Penalty
    • Staking Pool Rewards
      • Discounts
    • Data Collection Rewards
      • Stream Payment - Sensors
        • Competition and Arrival
      • Stream Payment - Lidiar
        • Teamwork
      • Pool Bonus
      • Formulas
  • ROI
  • πŸ¦Έβ€β™‚οΈFor Users
    • EnviDa Wallet
    • Driver Experience
    • Data Marketplace
    • DeFi Essentials
    • External Wallets
  • ⛓️Blockchain Architecture
    • Trustless EVM
    • Bridges
    • Runtime Development
    • Cross-Chain Compatibility
    • EnviDa Dex Engine
    • Technical Architecture
    • Scalability
    • Indexer & Explorer
    • Application Security
    • Storage
    • IPLD
    • Governance
    • Liquidity
    • Concensus
    • Runtime Environment
  • πŸ“”API Recipes
    • Account
    • Asset
    • Bag
    • Bundle
    • Market
  • 🌐EnviDa Network Infrastructure
  • ☸️Nodes and Validators
  • 🧠AI & Simulations
  • 🀝Network Referral System
  • πŸ›£οΈRoadmap
  • πŸ“šResources
    • Website
    • Business Whitepaper
    • Github
    • Technical Whitepaper
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EnviDa Network Infrastructure

PreviousMarketNextNodes and Validators

Last updated 2 years ago

Core EnviDa node infrastructure are built from scalable, resilient and self healing containerized protocols, services and applications. While further providing layered architectural integrations between Web4.0 primitives.

Participants of an ecosystem can provision fractionalized infrastructure with a single command.

Developers can also take advantage of these automated provisioning tools to launch full development environments.

We’ve created the EnviDa Protocol that is composed with the purpose

EnviDa COREs purpose is to provide the tools that will facilitate the onboarding of Web 2.0 information to powerful and dynamic Web 3.0 data driven experiences.

Unlike many other blockchain technologies, our stack is constantly simulating the economy, triggering spatial, timed and flow events. The end goal is to optimize

for a continuous, interactive and provably fair economics simulation.

EnviDa Core Infrastructure

The C.O.R.E. node infrastructure is built from scalable, resilient and self healing containerized protocols, services and applications. While further providing layered architectural integrations between Web3.0 primitives.

Participants of an ecosystem can provision fractionalized infrastructure with a single command.

Developers can also take advantage of these automated provisioning tools to launch full development environments.

EDAT Relay Network groups multiple Core nodes to form a decentralized and distributed communications, computation and storage clusters for Web4 primitives.

The relay network is designed to perform high-frequency cross-chain operations with perfect interoperability. The DAO establishes the primitive rule set for each protocol-owned economy to perform independently, but also benefiting from a community of creators building on Core nodes.

Connecting Technology for Adaptive Edge & Distributed Systems.

EnviDa C.O.R.E. Provides scalability for major Web3 verticals.

Blockchain

  • Protocol-owned Proof-of-Authority (PoA) consensus, with on-chain governance.

  • PoA forkless updates provide flexibility to upgrade the blockchains runtime.

Computation

  • Cryptographically signed actors are the smallest unit of deployable, potable compute powered by WebAssembly.

  • Related actors are interconnected via a NATS distributed lattice and WasmCloud.

Storage

  • On-chain configuration orchestrates protocol-owned IPFS clusters and swarms.

  • The storage engine constantly works to provide the desired guarantees of reliability, redundancy and availability through a recorded on-chain manifest.

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