Integrated Data Availability (DA) Layers, like those in monolithic blockchains such as Ethereum and Solana, bundle execution, consensus, settlement, and data availability into a single, cohesive chain. This design prioritizes security and simplicity through a unified security model, where the entire network validates all data. For example, Ethereum's mainnet provides a robust, battle-tested DA guarantee for its ~$50B+ Total Value Locked (TVL), but at the cost of limited and expensive block space, with base layer data costs often exceeding $1 per 100KB during peak congestion.
LABS
Comparisons
Modular DA Layer vs Integrated DA Layer: Architectural Paradigm
A technical comparison of standalone data availability layers like Celestia and Avail versus integrated models on Ethereum and Solana. Analyzes trade-offs in scalability, cost, security, and developer experience for rollup architects.
Chainscore © 2026
introduction
THE ANALYSIS
Introduction: The Core Architectural Divide
A foundational look at the two competing philosophies for blockchain data availability and their inherent trade-offs.
Modular Data Availability Layers, exemplified by Celestia, Avail, and EigenDA, decouple data availability from execution. This specialization allows them to offer high-throughput, low-cost data publishing as a service to rollups and other execution layers. Celestia's architecture, for instance, enables data availability sampling (DAS) and can achieve throughput of over 100 MB per block at a cost of fractions of a cent per megabyte, a critical enabler for high-volume, low-fee applications. The trade-off is the introduction of a separate trust assumption and the operational complexity of managing multiple network dependencies.
The key trade-off: If your priority is maximizing security inheritance and minimizing new trust assumptions for a high-value protocol, an integrated DA layer like Ethereum is the conservative choice. If you prioritize scalability, predictable low costs, and sovereignty for a high-throughput application, a modular DA solution like Celestia or Avail provides a compelling alternative. The decision fundamentally hinges on your application's tolerance for trust minimization versus its need for cheap, abundant data bandwidth.
tldr-summary
Modular vs. Integrated DA: Architectural Paradigm
TL;DR: Key Differentiators at a Glance
A high-level comparison of the core trade-offs between modular Data Availability (DA) layers like Celestia and Avail, and integrated DA layers like Ethereum and Solana.
01
Modular DA: Unmatched Scalability & Cost
Specialized, dedicated data availability: Decouples DA from execution and consensus, enabling massive throughput. Celestia's current capacity is ~40 MB/block. This matters for high-throughput rollups (e.g., Arbitrum Orbit, Optimism Superchain) needing sub-cent transaction fees.
~40 MB/block
Celestia Capacity
< $0.001
Typical DA Cost
02
Modular DA: Sovereignty & Flexibility
Full-stack optionality: Rollups can choose their execution environment (EVM, SVM, Move), settlement layer, and prover (e.g., Risc Zero). This matters for protocols building custom app-chains (e.g., dYdX v4, Eclipse) that require specific VMs and governance models not possible on monolithic chains.
03
Integrated DA: Battle-Tested Security
Cryptoeconomic security from the base layer: Data availability is secured by the full validator set and native asset (e.g., ETH, SOL). Ethereum's DA is backed by a ~$400B+ staked economic security. This matters for high-value DeFi protocols (e.g., Aave, Uniswap) where the cost of a data withholding attack must be astronomically high.
$400B+
Ethereum Security
04
Integrated DA: Unified Liquidity & Tooling
Native composability within a single state: Applications share liquidity, user accounts, and tooling (e.g., Metamask, Solana Phantom) without cross-chain bridges. This matters for consumer dApps and gaming ecosystems (e.g., Mad Lads, Tensor) where seamless user experience and atomic composability are critical.
ARCHITECTURAL PARADIGM COMPARISON
Head-to-Head Feature Comparison: Modular DA vs Integrated DA
Direct comparison of Data Availability (DA) layer design choices for blockchain scalability.
| Metric / Feature | Modular DA (e.g., Celestia, Avail, EigenDA) | Integrated DA (e.g., Ethereum, Solana, Polygon) |
|---|---|---|
Data Availability Cost per MB | $0.10 - $1.00 | $100 - $1,000+ |
Throughput (Data Blobs per Second) | 100+ | 10 - 20 |
Sovereignty & Fork Choice | ||
Native Consensus & Execution | ||
Primary Use Case | Rollup-as-a-Service, Appchains | Monolithic L1s, General-Purpose Smart Contracts |
Key Ecosystem Tools | Rollkit, Dymension, Caldera | Hardhat, Foundry, Truffle |
Data Sampling (Light Client Security) |
pros-cons-a
Architectural Paradigm
Pros and Cons: Modular DA (Celestia, Avail)
Key strengths and trade-offs of modular Data Availability (DA) layers versus integrated L1 DA at a glance.
01
Modular DA: Sovereign Scaling
Decouples execution from consensus and data: Rollups publish only transaction data, not full blocks. This enables horizontal scaling where throughput scales with the number of rollups (e.g., 100+ rollups on Celestia). This matters for high-throughput app-chains and protocols that need predictable, low-cost data posting independent of L1 congestion.
02
Modular DA: Cost Efficiency
Dramatically lower fees for rollups: By specializing in data ordering and availability proofs, modular DA layers offer cheaper data blobs. For example, posting 1 MB of data can cost <$0.01 on Celestia vs ~$200+ on Ethereum during peak demand. This is critical for micro-transactions, gaming, and social apps where fee sensitivity is paramount.
03
Integrated DA: Unified Security
Leverages the full validator set of the base layer: Execution and data availability share the same economic security (e.g., Ethereum's ~$50B+ staked ETH). This eliminates bridging trust assumptions and cross-layer governance complexity. This matters for high-value DeFi protocols (like Aave, Uniswap) where the security of settled data is non-negotiable.
04
Integrated DA: Simplified Stack
Single-layer operational and tooling footprint: Developers interact with one set of RPCs, explorers (Etherscan), and indexers (The Graph). This reduces integration complexity and vendor risk compared to managing dependencies on a separate DA layer, sequencer, and settlement layer. Ideal for teams prioritizing development velocity and ecosystem maturity.
pros-cons-b
Architectural Paradigm
Pros and Cons: Integrated DA (Ethereum, Solana L1)
Key strengths and trade-offs of monolithic L1 Data Availability (DA) at a glance.
01
Integrated DA Pro: Security & Network Effects
Direct L1 Security: Data availability inherits the full security budget of the underlying chain (e.g., Ethereum's ~$500B+ staked ETH). This matters for high-value DeFi protocols like Aave or Uniswap V4, where data liveness is non-negotiable.
$500B+
Ethereum Security Budget
03
Integrated DA Con: Limited Scalability & High Cost
Bottlenecked by L1 Throughput: DA capacity is capped by the base layer's block space. On Ethereum, this leads to high, volatile blob fees (~$0.01-$1+ per blob) during congestion, directly impacting rollup costs. This matters for mass-adoption applications requiring predictable, low-cost data posting.
~0.1-1 MB/s
Ethereum Blob Throughput
CHOOSE YOUR PRIORITY
Decision Framework: When to Choose Which Paradigm
Integrated DA (e.g., Ethereum, Solana) for DeFi
Verdict: The default for security-first, high TVL applications. Strengths: Unmatched security and data availability guarantees from a unified, battle-tested L1. This is non-negotiable for protocols like Aave, Uniswap, and MakerDAO managing billions in TVL. Settlement and execution happen on the same secure base layer, minimizing trust assumptions and complex bridging. Trade-off: You pay for this security with higher base-layer fees and are constrained by the L1's throughput.
Modular DA (e.g., Celestia, EigenDA, Avail) for DeFi
Verdict: A strategic choice for scaling specific components or launching app-chains. Strengths: Drastically reduces data publishing costs for L2s and rollups (e.g., Arbitrum, Optimism using EigenDA). Enables high-throughput, low-fee environments perfect for perp DEXs like dYdX or novel DeFi primitives that need cheap, abundant blockspace. Ideal for launching a dedicated DeFi app-chain that settles to Ethereum but uses a cost-optimized DA layer. Trade-off: Introduces a new trust assumption in the external DA provider's liveness and data availability sampling (DAS) security.
verdict
THE ANALYSIS
Verdict and Final Recommendation
A final assessment of the modular versus integrated data availability paradigm, guiding architects toward the optimal choice for their protocol's needs.
Modular DA Layers (e.g., Celestia, Avail, EigenDA) excel at providing scalable, cost-efficient data availability for high-throughput rollups. By decoupling consensus and execution, they allow specialized networks to optimize for raw data bandwidth. For example, Celestia's architecture enables sub-$0.01 per MB data posting fees, a critical metric for scaling applications like high-frequency DEXs or gaming rollups. This specialization fosters a multi-chain ecosystem where each layer can innovate independently.
Integrated DA Layers (e.g., Ethereum, Solana, Monad) take a different approach by bundling consensus, execution, and data availability into a single, cohesive stack. This results in superior security guarantees and atomic composability, as all state transitions and data are verified within a single trust domain. The trade-off is higher baseline costs and potential scalability constraints; Ethereum's full data sharding (Danksharding) is a multi-year roadmap item, while its current calldata costs can be prohibitive for some high-volume dApps.
The key trade-off is sovereignty versus atomicity. If your priority is minimizing operational costs, achieving maximum scalability, and maintaining full stack sovereignty for your rollup, choose a Modular DA solution. This is ideal for new L2s, app-chains, and protocols where predictable, low-cost data is paramount. If you prioritize maximizing security, leveraging deep liquidity, and requiring seamless, atomic composability with a vast existing ecosystem, choose an Integrated DA layer like Ethereum. This is non-negotiable for DeFi primitives, money markets, and protocols where the value secured justifies the premium.
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