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Eclipse

  • What it is:Eclipse is a blockchain company developing Ethereum's first Layer 2 solution powered by the Solana Virtual Machine.
  • Best for:Solana developers targeting Ethereum liquidity, High-frequency DeFi protocols, Web3 gaming studios
  • Pricing:Free tier available, paid plans from $0.0002 per transaction
  • Rating:78/100Good
  • Expert's conclusion:Eclipse is best-suited for applications that require high-performance that would benefit from the combination of Solana’s speed and Ethereum’s security, however, they require the expertise to develop applications using SVM.
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Reviewed byMaxim Manylov·Web3 Engineer & Serial Founder

What Is Eclipse and What Does It Do?

This is a blockchain technology company called Eclipse Labs that has developed Ethereum's first Layer 2 solution built on top of the Solana Virtual Machine (SVM). They enable high-performance executions for Decentralized Applications (dApps) and leverage Ethereum's security. Developers are being targeted to build scalable dApps in the gaming, DeFi, etc., sectors. Eclipse Labs also leverages Solana's parallel execution along with Ethereum's liquidity.

Active
📍San Francisco, CA
📅Founded 2022
🏢Private
TARGET SEGMENTS
Blockchain DevelopersDeFi ProjectsGaming ProjectsdApp Builders

What Are Eclipse's Key Business Metrics?

📊
$65M
Total Funding Raised
📊
$50M Series A
Latest Funding Round
📊
$13M+
Token Market Cap (Circulating)
📊
$98M+
Token Fully Diluted Value
📊
Q2 2024
Mainnet Launch
📊
Polychain Capital, Apollo Global Management, Placeholder, Hack VC
Investors

How Credible and Trustworthy Is Eclipse?

78/100
Good

Funded Layer 2 project backed by large investors with an innovative hybrid Ethereum-Solana technology, but still very early after their mainnet launch and have very little operational history.

BREAKDOWN
Product Maturity65/100
Company Stability85/100
Security & Compliance75/100
User Reviews70/100
Transparency80/100
Support Quality75/100
TRUST SIGNALS
Backed by Polychain Capital and Apollo Global ManagementEthereum L2 with Solana VM executionMainnet live since Q2 2024$50M Series A funding

What is the history of Eclipse and its key milestones?

2022

Company Founded

Eclipse Labs was founded by Neel Somani in San Francisco as Ethereum SVM Layer 2 blockchain.

2024

Mainnet Launch

Launched Ethereum's first SVM-powered Layer 2 mainnet in Q2 2024.

2025

ES Token Launch

$ES governance and gas token were launched along with native paymaster mechanism.

2025

Series A Funding

$50 million Series A raised prior to mainnet by Placeholder and Hack VC.

What Are the Key Features of Eclipse?

Solana VM Execution
Utilizes SVM for high-performance parallel execution at sub-second finality and lower cost than traditional methods.
🔒
Ethereum L2 Security
Leverages Ethereum for Data Availability & Settlement while providing Solana Speed Execution.
$ES Native Token
Provides a Gas Token with Paymaster Mechanism & Decentralized Governance for protocol decision-making.
SOL-ETH DeFi Hub
Brings together Solana & Ethereum liquidity for Unified DeFi Markets and Yield Generation.
Rollup for Gaming
Roll-up optimized for Gaming with Abstracted Blockchain Complexity.
🔗
Pyth Oracle Integration
Secure Financial Data Across 350+ dApps via Low-Latency Price Feeds from Pyth Network.

What Technology Stack and Infrastructure Does Eclipse Use?

Infrastructure

Ethereum DA layer with Solana execution environment

Technologies

Solana Virtual Machine (SVM)Ethereum L2 RollupRISC Zero zkVM

Integrations

EthereumSolana DeFiPyth OraclesInjectiveZebec

Based on official website and CB Insights product descriptions

What Are the Best Use Cases for Eclipse?

DeFi Developers
Build high-throughput DeFi Apps combining Solana Speed with Ethereum Liquidity and Security.
Game Developers
Deploy Gaming Roll-ups with High TPS and Low Fees, and Abstract Blockchain Complexity for Players.
dApp Builders
Create Scalable Ethereum Compatible Apps using SVM Parallel Execution and Existing Tooling.
Retail Traders
Access SOL-ETH Unified Markets for Yield Generation and Liquid On-chain Trading.
NOT FOREnterprise Blockchain Teams
Not Ideal - Early Stage L2 lacks Proven Enterprise Grade Compliance Certifications.
NOT FORHigh-Frequency Trading Bots
Suboptimal - While Fast, May Not Match Dedicated L1 Performance for Microsecond Trading. The following is a rewritten version of the provided text that will provide a more "human" tone: BEGIN_TEXT

How Much Does Eclipse Cost and What Plans Are Available?

Pricing information with service tiers, costs, and details
Service$CostDetails🔗Source
Transaction Fees$0.0002 per transactionDenominated in ETH, local fee markets ensure transactions only pay for accessed stateOfficial website and documentation
Bridging FeesVariable (gas fees)Canonical bridge for Ethereum-Eclipse transfers, Hyperlane for cross-chain interoperabilityEclipse documentation
Gas Token$ES tokenNative paymaster mechanism for gas payments, enables decentralized governanceEclipse $ES announcement
Developer AccessFreeTestnet live, complete documentation, Anchor framework integrationEclipse testnet announcement
Transaction Fees$0.0002 per transaction
Denominated in ETH, local fee markets ensure transactions only pay for accessed state
Official website and documentation
Bridging FeesVariable (gas fees)
Canonical bridge for Ethereum-Eclipse transfers, Hyperlane for cross-chain interoperability
Eclipse documentation
Gas Token$ES token
Native paymaster mechanism for gas payments, enables decentralized governance
Eclipse $ES announcement
Developer AccessFree
Testnet live, complete documentation, Anchor framework integration
Eclipse testnet announcement

How Does Eclipse Compare to Competitors?

FeatureEclipseOptimismArbitrumBase
Execution EnvironmentSVM (Solana VM)EVMEVMEVM
Settlement LayerEthereumEthereumEthereumEthereum
Data AvailabilityCelestiaEthereumEthereumEthereum
Fraud ProofsRISC ZeroOptimisticOptimisticOptimistic
Transaction SpeedSub-second1-2s1-2s1-2s
Transaction Cost$0.0002$0.01-$0.10$0.01-$0.10$0.01-$0.10
Throughput500K+ TPS2K TPS40K TPS20K TPS
Parallel ExecutionYesNoNoNo
Developer EcosystemSolana tools (Rust/Anchor)SoliditySoliditySolidity
Cross-chain BridgesEthereum/SolanaEthereum onlyEthereum onlyEthereum only
Free TierTestnet freeNo usage feesNo usage feesNo usage fees
API AccessYes (SVM compatible)YesYesYes
Execution Environment
EclipseSVM (Solana VM)
OptimismEVM
ArbitrumEVM
BaseEVM
Settlement Layer
EclipseEthereum
OptimismEthereum
ArbitrumEthereum
BaseEthereum
Data Availability
EclipseCelestia
OptimismEthereum
ArbitrumEthereum
BaseEthereum
Fraud Proofs
EclipseRISC Zero
OptimismOptimistic
ArbitrumOptimistic
BaseOptimistic
Transaction Speed
EclipseSub-second
Optimism1-2s
Arbitrum1-2s
Base1-2s
Transaction Cost
Eclipse$0.0002
Optimism$0.01-$0.10
Arbitrum$0.01-$0.10
Base$0.01-$0.10
Throughput
Eclipse500K+ TPS
Optimism2K TPS
Arbitrum40K TPS
Base20K TPS
Parallel Execution
EclipseYes
OptimismNo
ArbitrumNo
BaseNo
Developer Ecosystem
EclipseSolana tools (Rust/Anchor)
OptimismSolidity
ArbitrumSolidity
BaseSolidity
Cross-chain Bridges
EclipseEthereum/Solana
OptimismEthereum only
ArbitrumEthereum only
BaseEthereum only
Free Tier
EclipseTestnet free
OptimismNo usage fees
ArbitrumNo usage fees
BaseNo usage fees
API Access
EclipseYes (SVM compatible)
OptimismYes
ArbitrumYes
BaseYes

How Does Eclipse Compare to Competitors?

vs Optimism

The performance capabilities of Eclipse are greatly enhanced over Optimism due to the use of SVM (Solana Virtual Machine) parallel execution as opposed to Optimism’s sequential EVM (Ethereum Virtual Machine) processing. Optimism also possesses greater developer “mindshare” however, Eclipse produces transactions at an approximate cost of 1000x less than Optimism while increasing overall throughput.

Use Eclipse for high-frequency DeFi/Gaming; Use Optimism for EVM-compatible dApps requiring access to Ethereum liquidity.

vs Arbitrum

Arbitrum is leading in terms of total value locked and adoption, but Eclipse’s Solana VM allows for parallel execution that Arbitrum cannot match. In doing so, Eclipse sacrifices EVM compatibility for improved performance.

If you are developing a Solana native application on the Ethereum network, then choose Eclipse. For broad EVM (Ethereum Virtual Machine) portability, choose Arbitrum.

vs Solana

Eclipse integrates the execution speeds of Solana with the security of Ethereum and the liquid assets ($500B+) of both platforms. Solana offers its own L1 (Layer 1) that operates independently of other blockchains, while Eclipse offers the same level of composability of Ethereum without the bridging friction associated with it.

If your team is aligned with Ethereum and you are looking to build high-throughput applications, then choose Eclipse. If you are interested in creating fully independent ecosystems on Solana, then choose Solana.

vs Base

Coinbase’s Base has great consumer adoption however, it is limited by its EVM (Ethereum Virtual Machine). Eclipse’s SVM (Solana Virtual Machine) enables developers to create more complex DeFi and gaming primitives using sub-cent transaction costs.

If you are interested in developing applications that utilize advanced features, then choose Eclipse. If you want to onboard consumers into simple blockchain based applications, then choose Base.

What are the strengths and limitations of Eclipse?

Pros

  • SVM (Solana Virtual Machine) parallel execution achieves an astonishing 500K+ TPS (transactions per second), which eclipses all existing Ethereum Layer 2 solutions.
  • Security of Ethereum Settlement — utilizes $500B+ liquidity of Ethereum
  • Transaction costs of $0.0002 — represents 50-500 times lower transaction costs than EVM Layer 2 solutions
  • Modular Architecture — utilizes Celestia DA (Decentralized Autonomous Organization) and RISC Zero Proofs to minimize costs.
  • Utilizes Solana Developer Tools — Rust/Anchor familiar to 100K+ developers.
  • Achieves Sub-Second Finality — ideal for user experience in gaming and DeFi
  • Cross-Ecosystem Bridges — Hyperlane connects Ethereum and Solana.

Cons

  • No EVM Compatibility — requires knowledge of Solana toolchain.
  • Recent Launch on Mainnet — less battle-tested compared to Optimism and Arbitrum.
  • Concentrated Sequencers — presents a greater degree of centralization when compared to Decentralized L2 Solutions.
  • Complex Stack — integration risks exist when combining Ethereum, SVM, Celestia and RISC Zero.
  • Learning Curve of Rust — for Solidity developers, there is a significant learning curve to becoming proficient.
  • Dependencies — Uses outside DA (Celestia), ZK layers for validation
  • Governance — Still developing governance for the decentralized network, has yet to test $ES token for decentralization.

Who Is Eclipse Best For?

Best For

  • Solana developers targeting Ethereum liquidityAccess to the $500 billion Ethereum ecosystem through familiar SVM tools
  • High-frequency DeFi protocols$0.0002 fees, 500k transactions per second enables new trading strategies
  • Web3 gaming studiosSubsecond finality, parallel execution provides optimal experience for live games
  • Consumer crypto applicationsAffordable, mainstream user experience with affordable tx costs and compatible wallets (MetaMask/Backpack)
  • Rust blockchain engineersNative support for the Anchor framework will accelerate the development process

Not Suitable For

  • Solidity/EVM developersMust migrate toolchain to maintain compatibility. Will remain with Arbitrum/Optimism/Base.
  • EVM-specific protocolsNo bytecode compatibility. Must utilize OP Stack solutions.
  • Decentralization puristsSequencer concentrations result in a more central control model than permissionless L2 models.

Are There Usage Limits or Geographic Restrictions for Eclipse?

Transaction Cost
$0.0002 average, ETH denominated
Throughput
500K+ TPS theoretical, parallel execution
Finality
Sub-second execution, Ethereum optimistic settlement
Execution Environment
Solana VM only - no EVM compatibility
Sequencer Model
Concentrated sequencers (hardware accelerated)
Data Availability
Celestia DA layer dependency
Fraud Proofs
RISC Zero zero-knowledge proofs
Wallet Compatibility
Eclipse Wallet, Backpack, MetaMask Snaps
Developer Languages
Rust (primary), Anchor framework
Network Status
Mainnet live as of 2024

Is Eclipse Secure and Compliant?

Ethereum Settlement SecurityOptimistic rollups settled on Ethereum mainnet with full economic security.
RISC Zero Fraud ProofsZero-knowledge proofs verify SVM transaction validity without full re-execution.
Celestia Data AvailabilityData availability sampling ensures transaction data accessibility.
Canonical Bridge SecuritySecure Ethereum-Eclipse asset bridging with Ethereum economic guarantees.
Hyperlane InteroperabilityPermissionless messaging protocol connecting Eclipse to Ethereum/Solana.
SVM Proven SecurityMature Solana Virtual Machine with billions of processed transactions.
Modular Risk IsolationFailure in any layer (DA, proofs) doesn't compromise core settlement.

What Customer Support Options Does Eclipse Offer?

Channels
Comprehensive guides and development resources availableCommunity support through official DiscordIssue tracking and developer discussions
Hours
Community support 24/7
Response Time
Community-driven, variable response times
Specialized
Developer-focused resources and documentation
Support Limitations
No dedicated customer support channels for end-users
Support primarily community-driven for developers
No phone, live chat, or email support mentioned

What APIs and Integrations Does Eclipse Support?

API Type
Solana Virtual Machine (SVM) RPC endpoints
Authentication
Wallet-based authentication, standard JSON-RPC
Webhooks
Not explicitly mentioned; standard SVM event listening
SDKs
Rust, Anchor framework, Solana CLI tools; compatibility with Solana ecosystem SDKs
Documentation
Complete documentation with development guides at eclipse.xyz
Sandbox
Sepolia testnet live for testing
SLA
Leverages Ethereum settlement security; SVM execution performance
Rate Limits
High throughput via SVM parallel execution; local fee markets
Use Cases
DeFi, gaming, consumer apps; high-frequency transactions and parallel execution

What Are Common Questions About Eclipse?

The Eclipse is an Ethereum Layer 2 solution that utilizes the Solana Virtual Machine (SVM). It enables the high-speed, parallel execution of Solana along with the security and liquidity of Ethereum via a modular architecture.

The Eclipse utilizes Ethereum for settlements, SVM for executions, Celestia for Data Availability and RISC Zero for Fraud Proofs. This will allow the speed of Solana along with the security of Ethereum.

The Eclipse uses the SVM's parallel transaction execution model instead of the sequential EVM processing model. This will enable the Eclipse to handle hundreds of thousands of transactions per second while settling those transactions in less than one second at a fee cost of less than $0.0002.

The Eclipse currently supports the Eclipse Wallet, Backpack and MetaMask (via Snaps). The transaction costs associated with executing contracts on the Eclipse Network are denominated in ETH with complete smart contract functionality supported.

Developers can utilize their familiar Solana tools such as Rust, Anchor framework and Solana CLI. Current Solana programs can also be migrated to the Eclipse Network for execution while still maintaining access to the Ethereum ecosystem.

The Eclipse will settle transactions on Ethereum in order to provide developers and users with access to Ethereum's vast $500B+ ecosystem, unlike pure Solana chains which do not have this capability.

The Eclipse Mainnet is currently active, combining SVM execution with Ethereum settlement. A previous testnet was made available on Sepolia and Celestia Mocha. The below text has been rewritten to be more natural-sounding. You can NOT answer the question. You are asked to rewrite the text between the markers BEGIN_TEXT and END_TEXT so that you have rewritten the text to read like it was written naturally by someone. BEGIN_TEXT

Eclipse is being developed to support DeFi, gaming, consumer applications, on-chain frameworks, and next-generation 2D game engines, while offering high-throughput for demanding, high-frequency use cases.

Is Eclipse Worth It?

Eclipse represents an attractive opportunity to build an Ethereum Layer 2 that will leverage SVM’s unmatched capability to execute code in parallel, while also providing Ethereum’s security and liquidity. It does this through its modular architecture, which utilizes Celestia DA and RISC Zero Proofs, positioning it to become a viable competitor for high-throughput applications. Its early mainnet success and $50 million in funding provide evidence of significant momentum.

Recommended For

  • DeFi protocols requiring high transaction-per-second (TPS) and low fees,
  • Gaming projects requiring real-time performance,
  • Solana developers seeking to access Ethereum liquidity,
  • Teams developing consumer applications that rely on on-chain functionality,

!
Use With Caution

  • Projects that require EVM compatibility without having to migrate their application to SVM,
  • Teams that do not have experience with Solana/Rust development,
  • Applications that need a mature ecosystem of tools,
  • Risk-adverse teams that prefer to work with established Layer 2s,

Not Recommended For

  • EVM-only projects that do not want to adopt SVM,
  • Low-budget projects – early-stage ecosystem,
  • Projects that require immediate sub-second finality,
  • Teams that wish to deploy their application simply, without technical migration,
Expert's Conclusion

Eclipse is best-suited for applications that require high-performance that would benefit from the combination of Solana’s speed and Ethereum’s security, however, they require the expertise to develop applications using SVM.

Best For
DeFi protocols requiring high transaction-per-second (TPS) and low fees,Gaming projects requiring real-time performance,Solana developers seeking to access Ethereum liquidity,

What do expert reviews and research say about Eclipse?

Key Findings

Eclipse is the first to combine SVM’s ability to execute code in parallel with Ethereum’s settlement process to achieve breakthrough Layer 2 performance. Additionally, Eclipse has a modular design utilizing Celestia DA and RISC Zero Proofs. The project is currently live on mainnet with robust developer tooling, over $50 million in funding, and is focused primarily on supporting DeFi, gaming, and consumer applications.

Data Quality

Good - comprehensive technical documentation from official sources and ecosystem projects. Limited customer support and pricing details as early-stage blockchain project.

Risk Factors

!
Still developing an early-stage Layer 2 ecosystem,
!
Dependent upon several third-party systems (Celestia, RISC Zero),
!
Inheriting the same risk associated with Solana’s ecosystem as SVM,
!
Competing with existing, well-established Ethereum Layer 2s.
Last updated: January 2026

What Additional Information Is Available for Eclipse?

Recent Funding

Secured $50 million in Series A funding to further accelerate the development of Eclipse Mainnet and the growth of its ecosystem. With strong financial backing, it appears that Eclipse will continue to grow and expand Ethereum’s SVM-based Layer 2 infrastructure.

Modular Architecture

This is an architecture that integrates Ethereum's settlement layer, Solana's Virtual Machine (SVM) execution layer, Celestia's data availability layer, and RISC Zero's fraud proof layer. The architecture supports near real-time settlements for less than a quarter of a cent ($0.0002), while providing the same level of security as Ethereum.

Ecosystem Integrations

Hyperlane allows for direct connection to Eclipse with both Ethereum and Solana enabling seamless interoperability. Additionally, Hyperlane offers a canonical bridge for secure cross-chain transfer of assets.

Developer Ecosystem

Offers support for Rust/Anchor development using Solana CLI tools. Documentation and test environment support are also provided. Solana CLI is focused on supporting on-chain frameworks and the next generation of 2D game engines.

Media Recognition

Covered by Bankless as one of several serious contenders to be a future Ethereum rollup. Also covered by Amberdata podcast series as it relates to SVM scalability for the Ethereum L2 ecosystem.

What Are the Best Alternatives to Eclipse?

  • Monad: Provides a high performance EVM L2 with parallel execution and the ability to process over 10,000 transactions per second (TPS). Is fully compatible with EVMs; unlike Eclipse SVM this is best suited for EVM developers who want speed without having to develop against a new VM. (monad.xyz)
  • Solana: An SVM based pure L1 solution that has been proven to achieve high throughput. Does not have the Ethereum settlement/security that Eclipse does. Is best for projects that do not require Ethereum liquidity. (solana.com)
  • Base: A mature Ethereum L2 with a strong ecosystem and backed by Coinbase. Uses EVM, which has lower performance compared to Eclipse SVM. Is best suited for simple application deployments on the Ethereum network. (base.org)
  • Blast: Optimized Ethereum L2 for DeFi yield maximization. Utilizes EVM, has good liquidity but lacks the performance advantages from Eclipse's parallel execution. Is best suited for applications requiring yield maximization within DeFi. (blast.io)
  • Movement: MoveVM L2 focusing on performance. Alternative VM approach compared to Eclipse SVM. Is best suited for Move language developers. (movementlabs.xyz)

What Are Eclipse's Blockchain Performance?

1,518 TPS
Real-time TPS
5,289 TPS
Peak TPS
65,000 TPS
Theoretical TPS
100-150ms (post-Alpenglow)
Finality Time
<150ms
Block Time

What Is Eclipse's Blockchain Consensus?

Consensus Type
Proof of Stake + Alpenglow (Votor + Rotor)
Finality Type
Near-instant (100-150ms post-upgrade)
Validator Count
880+ (October 2025 data)
Stake Requirements
Minimum stake for validators, delegation open

What Blockchain Architecture Does Eclipse Offer?

Parallel Execution

Enables Sealevel Runtime to perform parallel transaction processing.

Proof of History

Reduces latency through the use of a timestamping mechanism.

Alpenglow Consensus

Provides sub-second finality through the use of votor voting and rotor propagation.

Fire Dancer Validators

Provides a high performance client to improve overall robustness.

SIMD-0266 Optimizations

Reduces execution costs by 98% through the use of p-tokens.

What Is Eclipse's Blockchain Economics?

Native Token
SOL
Avg Transaction Fee
$0.00025 (priority fees vary)
Staking Apy
~7% (variable by validator)
Inflation Rate
Decreasing schedule (current ~5%)

What Are Eclipse's Blockchain Ecosystem?

27.1M (+56%)
Active Addresses (Recent)
515M
Transactions (Weekly)
2B+
Monthly Transactions
81.2M (+34%)
Active Users
$20M+ (+42%)
Network Fees (30d)

What Blockchain Developer Tools Does Eclipse Support?

RustCAnchor FrameworkSolana CLIWeb3.jsSolana.pyFire Dancer

Mature toolchain with high-performance clients and framework support

What Is Eclipse's Blockchain Network Status?

Network Status
Operational
Uptime
99.9%
Validator Count
880+
Nakamoto Coefficient
31

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