TECHNICAL ARCHITECTURE & LAYER 1 MECHANISMS OF COREX CHAIN

1. CoreXChain Architecture Overview

CoreXChain is designed as an independent Layer 1 Blockchain, optimized for Crypto payments and global-scale e-commerce applications. The architecture follows a modular & scalable model, enabling:

• High processing performance.

• Flexible scalability.

• Seamless integration with enterprises and external ecosystems.

Primary Architectural Layers:

1. Network Layer

2. Consensus Layer

3. Execution Layer

4. Data Layer

5. Application & Integration Layer

2. Network Layer

The Network Layer is responsible for:

• Connecting nodes within the CoreXChain network.

• Transmitting transaction data and blocks.

• Ensuring system stability and security.

Key Features:

• Decentralized Peer-to-Peer (P2P) network.

• Smart node discovery and data synchronization mechanisms.

• Optimized low latency for real-time payment transactions.

3. Consensus Layer – Layer 1 Consensus Mechanism

CoreXChain utilizes a high-performance consensus mechanism, aiming for a balance between Security, Decentralization, and Scalability.

Orientation of the Consensus Mechanism:

• Based on an enhanced Proof-of-Stake (PoS).

• Incorporates intelligent Delegation & Validator Selection.

• Minimizes energy consumption compared to Proof-of-Work.

Role of Validators:

• Validate transactions.

• Produce and confirm blocks.

• Protect the integrity of the network.

4. Execution Layer – Transaction Execution & Smart Contracts

The Execution Layer is where:

• Transactions are processed.

• Smart Contracts are executed.

• Application logic is operated.

Design Orientation:

• Supports flexible Smart Contracts.

• Optimized for payment and e-commerce applications.

• Scalable to be compatible with popular standards in the future.

CoreXChain aims to build Payment-oriented Smart Contracts and specific modules for enterprises (merchant, settlement, and escrow modules), facilitating:

• Instant payments.

• Revenue sharing.

• Supply chain payments.

• Automated financial reconciliation.

5. Data Layer

The Data Layer is responsible for:

• Storing block and transaction data.

• Ensuring data integrity and traceability.

Key Features:

• Transparent on-chain data.

• Storage optimization mechanisms.

• Supports capacity expansion over time.

CoreXChain intends to combine on-chain data for transactions and assets with off-chain/hybrid solutions for large enterprise data (invoices, logs, metadata).

6. Application & Integration Layer

This layer enables CoreXChain to connect with the physical world.

Main Components:

• APIs & SDKs for enterprises.

• User-friendly Crypto Wallets.

• Crypto payment gateways for e-commerce.

• Developer Tools.

7. Scalability Mechanism

CoreXChain guides scalability through:

• Layer 1 optimization from the foundational architecture.

• Support for horizontal scaling.

• Readiness for future Layer 2 solutions.

8. Security Considerations

Security is a core element in the CoreXChain design:

• Secure consensus mechanisms.

• Transparent validator decentralization.

• Smart Contract risk control.

• Mitigation of cyber-attacks and fraud.

9. Future Technical Development Orientation

The architecture is built to be easily upgradable and compatible with evolving Blockchain technologies, including cross-chain connectivity in subsequent phases.

10. Summary

The technical architecture reflects the philosophy:

Building a pragmatic – sustainable Layer 1 Blockchain – serving the real economy and global payments.