In the world of cryptocurrencies, while technological innovation is important, the deeper logic might lie in thermodynamic laws. Just like the physical world, the cryptocurrency market also follows the principle of entropy increase: the disorder of an isolated system tends to increase. Bitcoin’s continued rise can be seen as the result of value and consensus continuously gathering, much like energy concentrating at one point, forming a low-entropy, stable structure. On the other hand, the decline of numerous altcoins represents the manifestation of entropy increase, with value dispersing and ultimately leading to their extinction.

“The thermodynamic value laws in cryptocurrency are far more important than technology” is not without merit. Take DOT, for example—its tokens were all issued, becoming a deterministic entropy-increasing system, lacking external energy input, and the inevitable outcome was value decay.

So, how can this thermodynamic fate be resisted? The BEVM project might offer a new perspective. BEVM aims to build a cryptocurrency ecosystem that aligns with thermodynamic laws and can achieve anti-entropy growth. The core logic is:

1. ‍Absorbing External Energy: BEVM integrates deeply with the Bitcoin ecosystem to bring Bitcoin’s energy into its own system. Users can mint BEVM consensus by utilizing BTC through state channels or lightning network wallets, effectively drawing energy from Bitcoin’s massive energy reservoir, maintaining BEVM’s vitality.‍
2. Introducing Negative Entropy Flow: BEVM’s agere sub-consensus mechanism attracts various AI innovation products through the bitagere network. The inclusion of AI can be viewed as introducing a negative entropy flow. Through continuous learning and evolution, AI creates new value, injecting vitality into the BEVM ecosystem and counteracting entropy increase.‍
3. Controlling the Speed of Entropy Increase: BEVM adopts Bitcoin’s token economic model, starting from 0 and gradually mining, introducing a Turing-complete seed AI model. This design ensures fairness and security for BEVM, while also providing enough time for growth, avoiding the rapid entropy countdown seen with VC coins upon launch. By gradually growing from 0 to 1, BEVM can effectively control the speed of entropy increase, achieving long-term sustainable development.

BEVM’s anti-entropy mechanism is not only evident at the technological level but also represents a philosophical approach. It aims to create a “perpetual motion machine” in the cryptocurrency world, continuously absorbing external energy and negative entropy flows to resist entropy increase and achieve sustainable development. This is undoubtedly a bold exploration of the future direction of cryptocurrencies.

Of course, whether BEVM succeeds is still to be seen, but its underlying logic and ideas are worth pondering. In today’s increasingly complex cryptocurrency market, perhaps only by truly understanding and applying thermodynamic laws can we find the path to the future.

Summary:

Schrödinger believed that life feeds on negative entropy, constantly drawing “order” from the environment to maintain a low-entropy state. BEVM borrows this concept, absorbing energy through its integration with the Bitcoin ecosystem, introducing AI’s negative entropy flow, and controlling entropy increase through gradual mining, thus resisting the thermodynamic fate of the crypto world and achieving perpetual growth.