Sonic | Official Documentation
Official WebsiteExplorerFaucet
  • Welcome to Sonic
  • Users
    • Getting Started
      • Setting up your wallet
      • Bridging funds to Sonic
      • Join Sonic community!
  • Developers
    • Why Choose Sonic?
    • Getting Started
      • Setup local development for Sonic SVM
      • Build & Deploy Your First Program
    • Developer Tooling
      • Explorer
      • Faucet
      • Wallet Extensions
  • Additional Tools & Examples
  • Additional Resources
  • Architecture
    • Overview
    • Sonic SVM Whitepaper
    • Vision & Architecture
    • Clusters
    • HyperGrid Framework
      • HyperGrid Infrastructure
        • Architectural Overview
        • Grids and Network Relationships
          • Grids
      • Interoperability with Solana
        • Data Synchronization Between HyperGrid and Solana Base Layer
      • HyperGrid Shared State Network (HSSN)
      • HSSN Explorer Overview
      • HSSN Gas Fee Mechanism
      • Operator Guides
        • Deploying a New Grid
        • Deploying a Sonic RPC Node
        • Deploying an HSSN Validator
        • Mainnet
          • Deploying an HSSN Validator
      • Verifiable Compute & Zero-Knowledge Proofing on HyperGrid
    • Sorada
      • Introduction
      • Architecture
      • How to Deploy Sorada
      • Resources
    • Rush ECS Framework
      • Introduction
      • Features
      • Quickstart
      • Reference
      • Demo
  • RESOURCES
    • Audit Reports
    • We're Hiring!
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  1. Architecture

Vision & Architecture

The Sonic Vision

Sonic envisions a future where blockchain games operate with:

  • True sovereignty over their game economies

  • Unprecedented performance and scalability

  • Seamless integration with existing game development workflows

  • Complete composability with the Solana ecosystem

Architectural Philosophy

Sonic's architecture is built on three fundamental pillars:

1. State Sovereignty

Each game ecosystem operates within its own specialized Grid, enabling:

  • Independent state management

  • Custom execution environments

  • Optimized performance characteristics

  • Flexible resource allocation

2. Horizontal Scalability

True scaling is achieved through:

  • Multi-grid concurrent execution

  • Dynamic resource allocation

  • Parallel transaction processing

  • Grid specialization

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Last updated 2 months ago