Safrochain
DocsAPIsWebsiteSafroHub
Explorer
  • Testnet
  • Mainnet (soon)
DocsAPIsWebsiteSafroHub
Explorer
  • Testnet
  • Mainnet (soon)
  1. Introduction
  • Introduction
    • What is Safrochain?
    • Key Ecosystem Components
    • Roadmap and Future Plans
  • Quickstart
    • Install a Node
    • Join the Public Testnet
    • Use the Faucet
    • Join as Validator
    • Join as a Relayer
  • Nodes & Network
    • Node Types (Full, Validator, Relayer…)
    • Updating and Upgrading Nodes
    • Security Guidelines
    • RPC/REST/gRPC Endpoints
  • Development & Integration
    • SDKs & Supported Libraries
    • IBC Integration
    • Building and Broadcasting Transactions
  • Explorer & APIs
    • Resouces
  • Wallets & Staking
    • Connecting a Wallet
    • Staking SAF Tokens
    • Delegating to Validators
    • Rewards and Slashing Information
  • Token Economy
    • SAF Token
    • Inflation & Supply Strategy
    • Liquidity Pools and DEX
    • Governance Utility of the Token
  • APIs
  1. Introduction

Key Ecosystem Components

Safrochain Key Ecosystem Components#

Safrochain is a Cosmos SDK-based blockchain, forked from Juno, designed to bridge local communities with global digital assets. As an all-in-one interactive onchain platform, it integrates seamlessly with the Cosmos ecosystem through the Inter-Blockchain Communication (IBC) protocol. Below are the key components of the Safrochain ecosystem:

1. Core Blockchain Infrastructure#

Cosmos SDK Framework
Provides a modular foundation for Safrochain, enabling customizable modules for governance, staking, and token management.
Tendermint Core (CometBFT)
Powers high-performance consensus with Byzantine Fault Tolerance (BFT), ensuring fast transaction finality and scalability.
Application Blockchain Interface (ABCI)
Connects the application layer to consensus and networking layers, supporting flexible dApp development.

2. Inter-Blockchain Communication (IBC)#

Enables interoperability with other Cosmos-based chains, facilitating secure cross-chain transfers of assets and data.
Supports use cases such as cross-chain DeFi, asset bridging, and collaborative governance.

3. Native Token#

Fuels transactions, staking, and governance within the Safrochain ecosystem.
Supports low-cost transactions and incentivizes validator and delegator participation.

4. Validator and Delegator Network#

Validators
Secure the network by validating transactions and maintaining consensus, staking native tokens for rewards.
Delegators
Stake tokens with validators to earn rewards and participate in on-chain governance.

5. Governance Module#

Facilitates community-driven decision-making through on-chain voting.
Supports proposals for protocol upgrades, parameter changes, and community initiatives.

6. Developer Tools#

CosmWasm
Enables smart contract development in Rust for complex dApp logic.
Starport/Ignite CLI
Streamlines blockchain and module development with scaffolding tools for rapid prototyping.
APIs and SDKs
Provide interfaces for integrating dApps with Safrochain’s infrastructure.

7. dApp Ecosystem#

Supports decentralized applications for real-world use cases, including:
Localized financial services (e.g., microfinance, remittances).
Decentralized marketplaces for community-driven commerce.
Governance platforms for transparent decision-making.

8. Infrastructure Support#

Node Hosting
Partnerships with providers like Zeeve enable deployment of validator and full nodes.
Block Explorer
Tools like Mintscan (if integrated) allow tracking of transactions, blocks, and addresses.
Monitoring Dashboards
Provide real-time insights into network performance and node health.

9. Community Layer#

Fosters engagement through forums, social channels, and developer communities within the Cosmos ecosystem.
Encourages participation in governance, hackathons, and ecosystem growth initiatives.
Modified at 2025-07-02 19:47:27
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What is Safrochain?
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Roadmap and Future Plans
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