Eclipse is a modular Layer 2 network that merges the best features of multiple blockchain ecosystems to provide efficient, low-cost, and high-throughput execution. By combining elements from Ethereum, Solana virtual machine (SVM), Celestia, and RISC Zero, it’s poised to tackle the classic blockchain trilemma of scalability, security, and decentralization.

Designed with a developer-friendly approach, Eclipse can handle intensive workloads, such as high-volume DeFi transactions or complex dApps, without sacrificing performance or user experience. This blog will dig into Eclipse’s core objectives, how it operates, and the tokens that power its growing ecosystem.

What is Eclipse?

The Eclipse network is a modular blockchain architecture capable of every function, without having to create or test new networks, instead relying on proven crypto assets and networks. The main focus is to provide a platform that can easily adapt and scale to any potential demand of increasingly sophisticated applications.

The design of Eclipse is created to facilitate anything from DeFi to far more complex gaming or enterprise solutions. By dividing various operations into dedicated modules that connect to each other, Eclipse makes it easier for platforms to upgrade or change out components without worrying about compatibility issues.

What Is Eclipse Used for?

With a modular architecture, Eclipse has a network separation that ensures each layer focuses on the specialization it was designed for. The result is a more efficient and flexible solution for developers as well as end users.

Under the hood, Ethereum serves as the settlement layer, anchoring the network’s final state for security. Meanwhile, execution tasks run on a Solana virtual machine, which allows ultra-fast parallel processing of multiple transactions with additional Ethereum gas fees.

Data availability, typically a bottleneck for performance, is offloaded to Celestia, ensuring that blocks are well-distributed and verifiable. To maintain correctness and protect privacy, Eclipse employs RISC Zero’s zero-knowledge proving system, adding an extra cryptographic shield to transaction confirmations.

What is $tETH and Unified Restaking Token (URT)?

Eclipse introduces tokens that facilitate cross-chain activity and strengthen network security. Two key tokens are $tETH and the Unified Restaking Token (URT), each playing a specialized role within the Eclipse ecosystem.

Turbo ETH ($tETH) is a fully synthetic token that is created to represent actual bridged ETH that is being used for gas fees and transactions. When you bridge ETH into the Eclipse network, you get $tETH in return.

The Unified Restaking Tokens, or URTs, are created to represent restaked assets from various protocols across networks, letting you earn even more staking rewards. By holding URTs, users are allowed to participate in multiple, simultaneous staking events.

How Does Eclipse Work?

$tETH is a representation of Ethereum’s native ETH token bridged into the Eclipse environment, allowing users to transact within Eclipse-based dApps without leaving the safety net of Ethereum’s security. This bridged asset ensures seamless cross-chain transactions, reducing friction for users who want to tap into Solana-like speeds or advanced DeFi applications without forfeiting Ethereum’s robust consensus.

Meanwhile, URT focuses on restaking, letting users “lock” or redelegate their tokens to support the network in more than one capacity. By linking staking rewards across different layers—settlement, execution, or data availability—URT encourages a harmonious system where each segment of Eclipse is well-secured.

This multi-layer restaking model can optimize yield for participants and reduce fragmentation, ultimately reinforcing Eclipse’s mission of delivering a unified, efficient, and stable multi-chain ecosystem.

Eclipse Mainnet is the live, production-ready environment that implements Eclipse’s modular Layer 2 architecture. It harmonizes the four fundamental components – settlement, execution, data availability, and proving – to deliver a fully functional network with high throughput and low fees.

By distributing these responsibilities across specialized protocols, Eclipse Mainnet offers a flexible, upgradeable framework that developers can tailor for just about any use case imaginable.

Settlement: Ethereum

Ethereum acts as the final layer for transaction settlement and security. By anchoring the network’s state on Ethereum, Eclipse can leverage the robust, battle-tested consensus of the Ethereum mainnet. Any disputes or confirmations ultimately refer back to Ethereum smart contracts, ensuring trustless finality and minimal counterparty risk for participants.

Execution: Solana Virtual Machine (SVM)

For actual transaction processing, Eclipse employs the Solana Virtual Machine. Known for its parallel processing and high throughput, SVM enables multiple transactions to be executed simultaneously, mitigating congestion and high fees.

Data Availability: Celestia

Celestia is tasked with distributing and verifying block data across the network without the overhead of consensus on every transaction. Through Celestia’s specialized data availability layer, nodes can independently confirm that transaction data is published and accessible, improving reliability and preventing data-withholding attacks.

Proving: RISC Zero

To ensure correctness and protect privacy, Eclipse integrates RISC Zero’s zero-knowledge proving technology. RISC Zero allows developers to create zk-proofs that confirm transaction validity, even for complex computations, while shielding any sensitive or confidential data.

Eclipse Ecosystem

Eclipse Mainnet empowers developers across diverse segments by marrying speed, scalability, and security. Several sectors are already tapping Eclipse’s modular approach to build innovative applications while leveraging speed and scalability simultaneously.

Games

Game developers benefit from fast execution and near-instant user interactions. Eclipse’s parallel processing is essential for real-time gaming mechanics, enabling robust multiplayer experiences and complex in-game economies. Popular games include Frost Mammoth, and Worm, a PvP version of the classic “snake” game.

Bridges

Cross-chain bridges like Hyperlane and LayerSwap can leverage Eclipse’s bridging features to transfer assets between Ethereum, Solana, and other networks. This interoperability fosters a more unified crypto ecosystem, reducing siloed liquidity pools and expanding the user base.

Defi

DeFi platforms flourish with lower gas fees and high throughput, allowing for DEXs like SolarDEX, lending pools, prediction markets like Polymarket, and yield-farming protocols to operate efficiently. The combination of Ethereum’s security and Solana’s speed improves user experiences and liquidity depth.

Infra

Infrastructure services, such as oracles or node hosting, can integrate with Eclipse to provide scalable solutions. By distributing workloads across modular layers, these infra providers can ensure reliable data feeds like Etherscan, efficient indexing like Chainlyze.ai, or node services for dApps and end users.

Consumer

Consumer-facing applications benefit from Eclipse’s user-friendly design. Whether it’s a mobile wallet or a social media dApp, developers can build cost-effective, real-time platforms. People can interact with on-chain services at speeds matching or exceeding traditional web apps.

How to Use Eclipse

1. If you’re interested in using Eclipse, the first step is setting up a compatible wallet. Backpack exchange is one of the most popular for use with the Eclipse mainnet.
2. Connect your wallet to Eclipse, either manually or by selecting the Eclipse network if available. Check official documentation for updated RPB endpoints and any chain-specific settings you’ll need.
3. Depending on your goals, you’ll need to acquire the tokens relevant to your needs (tETH for bridging ETH, URT for restaking). Source them from exchanges or official bridges.
4. Now that you’re on the Eclipse network, you can access dApps built on the network, which offer gaming, trading, yield farming, and more.

Eclipse Airdrop

The Eclipse airdrop is ongoing, and users can earn Grass (points) by holding various assets on the Eclipse network. The more Grass you earn before the airdrop, the more skin you have in the game, and the greater the chances of being part of the airdrop. Increase the Grass you generate by using dApps within the Eclipse ecosystem.

First, go to the bridge site and send assets from another network to the Eclipse network. Grass is generated by all of the following assets being stored on the network: ETH, tETH, apxETH, SOL, ezSOL, kySOL, jitoSOL, TIA, stTIA, USDC, and USDT. Then, follow the directions in the Eclipse Discord to register and perform tasks.

FAQs

Has Eclipse released token yet?

The Eclipse token has not been released yet, but the token generation event is expected to launch within the next 4 to 5 weeks, and the dev team will be taking an eligibility snapshot for the airdrop later this week.

How to get Eclipse airdrop?

Sign up, deposit assets, and perform tasks to generate Grass for a better chance of an airdrop. Check out the Eclipse official site or drop in on the Discord for full instructions.

How much is an Eclipse coin worth?

As of April 8, 2025, CoinBrain shows ECP has a value of $0.000000002618, though this is just an estimate as the token has not undergone its TGE yet.

Where can I buy Eclipse?

While listings differ by region, you can generally find Eclipse tokens on major exchanges like OKX and Bybit following its airdop and official release. 

Is Eclipse secure?

Eclipse employs modular layers for execution, settlement, data availability, and proofs, minimizing single points of failure. It relies on proven security from Ethereum and RISC Zero.

What is Eclipse best for?

Eclipse excels at hosting dApps that demand high throughput and low latency while still being secure and affordable.