The blockchain landscape is evolving rapidly, with new platforms emerging to address the limitations of existing systems. BEVM stands out as an innovative project designed to leverage Bitcoin’s robust foundation while integrating the flexibility and intelligence of AI-driven abstract labor computation. This article explores BEVM’s groundbreaking approach, highlighting its key features, potential impact on decentralized applications (dApps), and how it overcomes the limitations of Ethereum’s smart contracts.‍

I. Rethinking Bitcoin as the Cornerstone of Crypt

‍As the pioneer of cryptocurrency, Bitcoin has demonstrated resilience and security over the past 16 years. Its underlying technology operates through a three-layer computational framework, showcasing remarkable ingenuity:

• ‍Human Social Computation: The consensus on value and the transformation of energy expenditure into a cultural framework that drives the system.‍
• Internet-Distributed Computation: A decentralized ledger powered by miners competing to generate new blocks and random numbers via Proof-of-Work (PoW).‍
• UTXO-Based Trust Computation: Independent UTXOs (Unspent Transaction Outputs) interact using random numbers as time references, enabling secure and decentralized value transfers.

This system, akin to Turing’s concept of a “seed AI,” has organically evolved into a robust economic model. According to Schrödinger’s thermodynamic definition of life, Bitcoin functions as a negative entropy-driven thermodynamic organism. Its free-market growth model, from 0 to 21 million BTC, mirrors the self-evolution of an intelligent “seed AI” system.‍

II. Rethinking Ethereum’s Blockchain Model‍

Despite Ethereum’s advancements, its smart contract framework faces several critical flaws:

• ‍Closed System & Energy Deficiency: Based on thermodynamic principles, BFT PoS systems like Ethereum operate as closed systems with increasing entropy and no external energy input. While BFT PoS ensures Byzantine fault tolerance for distributed computing, it lacks the necessary energy input to sustain long-term equilibrium.‍
• Centralization Risks: Ethereum’s world state tree functions as a centralized account-based model. By Ethereum’s original definition, it aims to be a “world computer,” where all users log into a single system. This structure leads to a single point of failure, contradicting blockchain’s decentralized ethos.‍
• Token Value Deficiency: Ethereum’s closed EVM computing model and centralized account structure prevent trustless integration of external data, leading to tokens within the EVM ecosystem lacking real-world economic anchoring.
  

III. BEVM’s Innovation: Combining Bitcoin’s Strengths with AI-Driven Computation‍

BEVM addresses Ethereum’s shortcomings by integrating Bitcoin’s advantages with AI-powered abstract labor computation:

• ‍SuperConsensus (SuperBitcoin): BEVM inherits Bitcoin’s 16 years of accumulated consensus, converting Bitcoin’s energy into BEVM’s foundational consensus layer—similar to a nurturing process that fuels BEVM’s growth, forming a SuperBitcoin ecosystem.‍
• SubConsensus (BitAgere): BitAgere is a decentralized intelligent network comprising multiple Agere systems. Each Agere system is independently designed with its own validation nodes and tokenomics, contributing to BEVM’s consensus. Through AI-driven abstract labor and computational productivity, these systems sustain BEVM’s second layer of negative-entropy intelligence.
  

IV. Product Design

• ‍Bridging the Past: Supports decentralized BTC integration via state channels (e.g., Lightning Network), using BTC as digital gold collateral to issue BEVM tokens.‍
• Embracing the Future: Assets like BTC and USDT can circulate within BEVM via decentralized UTXO state channels, fueling the upper-layer AI agent network BitAgere. BitAgere unifies the decentralized AI agent marketplace, allowing individual AI agents to function with Bitcoin-like resilience while interacting within a unified network—potentially leading to the emergence of collective superintelligence.‍
• Win-Win Ecosystem: Developers can customize incentive models within BitAgere, aligning with their Agere systems while benefiting from BEVM’s tokenomics—ultimately fostering a symbiotic relationship between AI Agent developers and BEVM.‍

V. BEVM vs. Ethereum: A New Paradigm for AI Computation‍

Compared to Ethereum’s smart contracts, BEVM’s AI-powered abstract labor computation prioritizes decentralization, security, and scalability. By eliminating Ethereum’s centralization risks, BEVM paves the way for more complex and trustless AI-driven applications.

VI.Conclusion

BEVM sidesteps the pitfalls of traditional blockchain development by adopting Bitcoin’s decentralized resilience while aligning with the evolving AI Agent market. With Bitcoin’s value as its foundation and BitAgere as the framework for unifying decentralized AI computation, BEVM envisions an emergent, self-sustaining intelligent value ecosystem, centered on decentralized individual computation.