What Is the Utility of the ES Token? Exploring the Growth Engine of the Eclipse Ecosystem

Why pay attention to ES?

In the Layer2 battlefield, various projects are competing around technologies such as ZK and OP. However, Eclipse takes a different approach, focusing on extreme optimization of performance, particularly suitable for new scenarios like AI inference and real-time gaming. In this system, ES is the value carrier that drives everything.

The difference between ES and other mainstream public chain tokens

Compared to tokens like ETH, SOL, and OP, ES has a clearer positioning in terms of performance:

• Emphasize parallel execution and low latency;
• Applicable to high-density computing transactions;
• Future may support more complex on-chain economic contracts;
• The on-chain execution is stronger and more compatible with the “Application is King” phase.

Support the economic system of GigaCompute

GigaCompute is a core concept proposed by Eclipse, representing the goal of increasing on-chain computing power by one hundred times or even one thousand times. ES, as the carrier, must carry:

• Multi-threaded trading scheduling resource pricing;
• Dynamic fees such as storage, prefetching, and hot scheduling;
• Payment mechanism for the utilization of hardware resources such as GPU/FPGAs.

Therefore, the “Gas” logic of ES will be more complex and precise.

How does the performance advantage of Eclipse empower ES?

The technical core of Eclipse includes:

• GSVM architecture: capable of parallel processing different types of application transactions;
• SmartNIC Acceleration: Completing some verification tasks in advance at the NIC level;
• Hotspot Island Scheduling System: Allocating exclusive computing power for different dApps;
• Hardware and software collaborative tuning: improving overall resource utilization efficiency.

These advantages will ultimately manifest as reduced transaction fees and increased throughput, inspiring more people to use it, thereby increasing the value circulation and demand for ES.

Application scenarios: AI, blockchain games, DePIN

• AI model hosting and inference: On-chain calling of LLM requires a large amount of computing power;
• Web3 games: high-frequency small transactions, emphasizing low latency;
• DePIN (Decentralized Physical Infrastructure Network): Devices are real-time on-chain, with strong dependency performance;
• On-chain financial contracts: high concurrency DEX and oracle calls.

These demands rely on strong performance, and performance is driven by the ES economic system.

Risks and Outlook

Although the prospects are promising, ES still faces the following challenges:

• Can it attract enough developers to migrate to the SVM ecosystem?
• How has the competitive relationship with the Solana main chain or other L2s evolved?
• Is the token release rhythm and economic model robust enough?

However, the combination of Eclipse + ES represents a new type of Layer 2 possibility that is worth continuous attention.