The GREEN blockchain's architectural framework represents a scientific and mathematically precise approach to building a robust, scalable, and secure blockchain ecosystem. It integrates advanced components to meet the complex demands of a global user base while ensuring environmental responsibility and economic sustainability.

2.1.1 Consensus Mechanism: Proof of Environmental Responsibility (PoER)

At the heart of the GREEN blockchain lies a groundbreaking consensus mechanism known as Proof of Environmental Responsibility (PoER). This mathematical marvel transforms environmental data into a robust and fair system for achieving consensus and validating transactions.

Mathematical Formulas for PoER Score Calculation: PoER employs mathematical formulas to calculate the environmental responsibility of miners. These formulas take into account factors such as the energy source's carbon emissions, energy efficiency, and mining operations' environmental impact. The mathematical precision ensures that miners are rewarded proportionately to their environmental commitment.

PoER Score Validation: Miners propose new blocks to the GREEN blockchain, and PoER scores are considered during block validation. The mathematical algorithms behind PoER ensure that blocks with higher environmental responsibility scores are prioritized, reinforcing the GREEN blockchain's commitment to environmental sustainability.

2.1.2 Node Infrastructure

The GREEN blockchain operates on a decentralized network of nodes that serve as the backbone of the ecosystem. These nodes are meticulously distributed across the globe, providing a scientific approach to ensuring network reliability and security.

Mathematical Algorithms for Node Distribution: GREEN employs mathematical algorithms to determine optimal node distribution. These algorithms consider factors such as geographical location, network latency, and redundancy to ensure that the network is both efficient and resilient.

Network Integrity through Consensus: Nodes validate transactions and reach consensus through the PoER mechanism. This consensus process relies on mathematical algorithms that provide provable security, immutability, and trust in the blockchain ledger.

2.1.3 Smart Contracts

Smart contracts are integral to the GREEN ecosystem, enabling decentralized applications (DApps) and sophisticated automated agreements. These self-executing contracts are governed by mathematical logic, ensuring transparency and predictability.

Mathematical Logic in Smart Contracts: Smart contracts on GREEN are written in code, where mathematical logic defines the contract's behavior. These contracts execute with deterministic outcomes, and their reliability is grounded in mathematical certainty.

Advanced Mathematical Libraries: GREEN supports a wide array of mathematical libraries within its smart contract platform. These libraries enable developers to build intricate DApps that involve complex mathematical calculations, from financial models to predictive algorithms.

2.1.4 Wallets

The GREEN blockchain provides users with secure custodial wallets within the mobile app. These wallets are engineered with advanced cryptographic techniques and mathematical principles to safeguard user assets.

Mathematical Foundations of Cryptography: The security of GREEN wallets relies on mathematical cryptography. Advanced cryptographic algorithms protect private keys, enabling secure storage and transfer of GREEN coins.

Real-time Mathematical Analysis: Within the wallet, users have access to real-time balances and transaction histories, all powered by mathematical algorithms. These features provide users with insights into their portfolio's performance and transaction history.

In summary, the GREEN blockchain's architecture is a testament to the fusion of mathematical precision, environmental responsibility, and cutting-edge technology. From the PoER consensus mechanism to the distribution of nodes, smart contracts, and wallet security, every component of the architecture reflects a commitment to scientific rigor and a vision for a sustainable, secure, and globally accessible blockchain ecosystem.