Bedrock was a reset. It replaced a monolithic architecture with a modular design, separating execution, settlement, and data availability. This created a clean-slate foundation for future upgrades.
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Blog
Why Optimism's Bedrock Upgrade Was Just the Beginning
Bedrock wasn't a one-time fix. Its modular design created a flexible foundation, allowing the Optimism Superchain to dynamically adapt its fee engine to the new realities of EIP-4844 and the blob market, a critical advantage in the L2 wars.
introduction
THE FOUNDATION
Introduction
Optimism's Bedrock upgrade established a minimal, modular core, setting the stage for a new wave of L2 innovation.
The real goal is the Superchain. Bedrock's standardization enables shared sequencers and cross-chain messaging, moving beyond isolated rollups to a unified L2 ecosystem. This is the core thesis.
Evidence: Post-Bedrock, Optimism's fault proof system moved from a centralized challenge period to a multi-proof, permissionless model, directly enabling protocols like Base and Zora to launch as true L2s.
thesis-statement
THE FOUNDATION
The Core Argument
Bedrock established a minimal, modular core, making Optimism a platform for protocol-level innovation, not just another L2.
Bedrock was a reset. It replaced a monolithic, custom EVM with a minimal, modular client derived from Geth. This architectural purity reduced technical debt and created a clean-slate foundation for systemic upgrades like fault proofs and cross-chain messaging.
The real unlock is the Superchain. Bedrock’s shared standardized rollup architecture enables the OP Stack to function as a cohesive interoperability layer. This positions Optimism to compete with monolithic chains and appchains by offering sovereign chains with native, low-latency communication.
Compare to Arbitrum’s Stylus. While Arbitrum focuses on expanding VM support for developer flexibility, Optimism’s roadmap prioritizes shared security and atomic composability across chains. This is a bet on network effects at the protocol layer, not just the execution layer.
Evidence: The migration reduced L1 data costs by 40% and enabled 1.8x faster deposit times. This efficiency gain funds the Collective’s retroactive public goods funding, creating a flywheel where protocol surplus directly fuels ecosystem growth.
market-context
THE DATA LAYER
The New Battlefield: Blob Markets
Ethereum's Dencun upgrade shifted competition from execution to data availability, creating a new market for blob space.
Bedrock was infrastructure prep. Optimism's upgrade standardized its rollup architecture, but the real scaling catalyst was Ethereum's Dencun fork introducing blob-carrying transactions. This created a cheap, dedicated data channel, moving the bottleneck from L1 gas to L2 data posting costs.
Blob markets are the new moat. Rollups now compete on data procurement efficiency. Chains like Base and Arbitrum must build or integrate blob marketplaces to source cheap data from providers like Celestia, Avail, or EigenDA, turning data availability into a commodity.
Cost volatility creates arbitrage. Blob supply is permissionless but capped, leading to spot price auctions during congestion. Rollups using a single provider like EigenLayer face cost spikes; those with dynamic markets (e.g., Kinto) hedge risk.
Evidence: Post-Dencun, Base's average transaction cost dropped 60%, but daily blob usage already hits 80% of capacity. The race is for rollups to build the most resilient, low-cost data pipeline.
key-trends
BEYOND THE FOUNDATION
Key Trends Defining the Post-Bedrock Era
Bedrock standardized the tech stack; the real battle for users is now fought on the application and interoperability layer.
01
The Superchain is a Political Project
Bedrock's technical uniformity was a prerequisite for the Superchain's real goal: shared governance and security. The OP Stack is a governance capture tool, not just software.
- Collective Security: Fault proofs and upgrades are coordinated across chains like Base and Zora.
- Economic Moats: A unified ecosystem locks in developers and liquidity, creating a $10B+ TVL fortress.
- Standardized Rollup-as-a-Service: Launching a chain becomes a political decision to join a coalition.
$10B+
Collective TVL
5+
Major Chains
02
Intent-Based Architectures Are Inevitable
Bedrock optimized the chain, but user experience is still broken by multi-step transactions. The next abstraction layer handles complexity for you.
- User Declares 'What': Users specify a desired outcome (e.g., "swap ETH for USDC on Arbitrum"), not a series of steps.
- Solvers Compete: A network of solvers (like in UniswapX or CowSwap) finds the optimal path across chains and DEXs.
- Native Cross-Chain: This makes native intent-based bridges like Across and layerzero's Delivery more critical than standard bridges.
~500ms
Solver Latency
90%+
Fill Rate
03
Modularity Breeds Specialized Data Layers
Bedrock decoupled execution from consensus. The next frontier is decoupling data availability (DA) from settlement, creating a market for DA.
- Cost Arbitrage: Rollups can choose Celestia, EigenDA, or Ethereum for data, slashing fees by -50% or more.
- Security Spectrum: Projects trade off between Ethereum-level security and optimistic or ZK-verified cheaper alternatives.
- New Stack: The canonical stack becomes OP Stack + Celestia + Altana, fracturing the monolithic L2 narrative.
-50%
Cost Reduced
3+
DA Options
04
The Verifier's Dilemma
Bedrock introduced fault proofs, but who actually runs them? Security assumptions collapse if verification is centralized.
- Economic Incentives: Current designs lack sufficient rewards for independent verifiers, creating a single-verifier risk.
- ZK Endgame: This flaw makes a compelling case for ZK rollups like zkSync and Starknet, where validity is mathematically proven, not socially challenged.
- Hybrid Models: Expect optimistic rollups with ZK fraud proofs (like Arbitrum BOLD) to emerge as a compromise.
1
Active Verifier
7 Days
Challenge Window
05
L3s: The Real Scaling Narrative
Bedrock made L2s efficient. The next 100x in scale and specialization comes from L3s (app-chains) built on top of them.
- Custom Gas Tokens: Apps can use their own token for fees, creating powerful economic loops (see Arbitrum Orbit chains).
- Ultra-Low Cost & High Throughput: Specialized environments for gaming or social apps with ~$0.001 tx costs.
- Stack Wars: The battle shifts to which L2 stack (OP Stack, Arbitrum Orbit, zkStack) captures the most L3 deployments.
~$0.001
Tx Cost
100x
Throughput
06
MEV Goes Supersonic
A standardized, high-throughput L2 environment turns MEV extraction into a hyper-optimized, cross-chain industry.
- Cross-Domain MEV: Searchers now arbitrage between Optimism, Base, and Arbitrum in the same bundle.
- Pro-Builder Ecosystems: Chains that enable sophisticated PBS (Proposer-Builder Separation) via tools like SUAVE will attract more capital.
- User Experience Tax: The 'optimal' intent solution is often the one that best captures and redistributes this MEV.
$100M+
Annual Extractable
~1s
Arb Window
ARCHITECTURAL DIVERGENCE
Fee Engine Flexibility: Superchain vs. Monolithic L2s
Compares the design and economic control of transaction fee mechanisms across different L2 architectures.
| Feature / Metric | OP Stack Superchain | Arbitrum Nitro | zkSync Era | Polygon zkEVM |
|---|---|---|---|---|
Fee Market Architecture | Modular, Sequencer-Governed | Centralized Sequencer Auction | Centralized Sequencer | Centralized Sequencer |
Fee Token Flexibility | ||||
Base Fee Update Cadence | Per Block (EIP-1559) | Per Block (EIP-1559) | Per Block (EIP-1559) | Per Block (EIP-1559) |
Priority Fee Destination | Sequencer + Protocol Treasury | Sequencer | Sequencer | Sequencer |
Base Fee Burn Mechanism | Via L1 Settlement | Via L1 Settlement | Via L1 Settlement | Via L1 Settlement |
Governance-Controlled Fee Params | ||||
Avg. Time to Finality | 12 minutes | ~5 minutes | ~10 minutes | ~30 minutes |
Sequencer Decentralization Path | Through OP Stack's Rollup Client | Permissioned Set (Planned) | Permissioned Set (Planned) | Permissioned Set (Planned) |
deep-dive
THE FEE ENGINE
How Bedrock's Modularity Enables Dynamic Fees
Bedrock's clean separation of execution, settlement, and data availability creates a pluggable architecture for fee market innovation.
Bedrock decouples fee logic from core consensus. The upgrade separated the execution layer from the L1 settlement contract, allowing the fee calculation mechanism to be upgraded without a hard fork.
This enables EIP-1559-style fee markets on L2. Unlike monolithic chains, Optimism can implement dynamic base fees and priority tips by modifying its Gas Price Oracle contract, independent of the sequencer.
The modular design contrasts with Arbitrum's integrated Nitro architecture. While Arbitrum's fees are efficient, Bedrock's approach offers protocol-level upgradeability for fee models, a feature leveraged by OP Stack chains like Base.
Evidence: Post-Bedrock, Optimism reduced L1 data posting costs by 40% by switching to a custom batcher, demonstrating the economic impact of modular component replacement.
counter-argument
THE MODULAR TRAP
The Steelman: Isn't Arbitrum's Monolithic Stack Simpler?
Arbitrum's integrated design offers short-term simplicity, but Optimism's modular Bedrock upgrade is a strategic bet on long-term scalability and sovereignty.
Arbitrum's integrated design is simpler for developers today. Its single-stack architecture bundles execution, data availability, and consensus, reducing initial integration complexity compared to a modular chain.
Modularity creates a performance ceiling. A monolithic chain like Arbitrum One optimizes for internal throughput, while a modular chain like OP Stack must coordinate with external layers like Celestia or EigenDA, adding latency.
Bedrock's modularity is strategic. It decouples the execution client from consensus, enabling faster client diversity and cheaper fault proofs by leveraging Cannon. This creates a more resilient and upgradeable foundation.
Evidence: The OP Stack's Superchain vision proves modularity's value. Chains like Base and Zora share security and tooling, a network effect a monolithic stack cannot replicate without fragmentation.
takeaways
OPTIMISM'S NEXT WAVE
Key Takeaways for Builders and Strategists
Bedrock was a modular foundation; the real value accrual happens in the application and protocol layers built on top.
01
The Superchain is a Protocol, Not a Product
Optimism's endgame is a standardized, interoperable network of chains (OP Stack). Bedrock's modularity enables this by decoupling execution, settlement, and consensus.\n- Standardization allows for shared security models and cross-chain liquidity.\n- Interoperability is native, reducing fragmentation versus isolated L2s like Arbitrum.
OP Stack
Standard
Multi-Chain
Architecture
02
The Real Scaling is in Data Availability (DA)
Bedrock's biggest bottleneck wasn't execution, but the cost of posting data to Ethereum. The solution is modular DA layers.\n- EigenDA and Celestia integration can reduce L1 data costs by >90%.\n- This directly translates to lower transaction fees and higher throughput for end-users.
-90%
DA Cost
16 KB/s
EigenDA Throughput
03
Fault Proofs are the Final Boss for Decentralization
Bedrock launched with only a centralized 'security council' for upgrades. The missing piece is a decentralized, on-chain fault proof system.\n- Cannon (OP's fault proof client) enables trust-minimized withdrawals without a multisig.\n- Until this is live, the chain's security is not meaningfully superior to a sidechain like Polygon POS.
Cannon
Fault Proof
Trustless Exit
Goal
04
Modularity Enables Vertical Integration
The separation of execution, settlement, and DA allows specialized chains (e.g., a gaming-focused rollup) to optimize each layer.\n- A chain can use the OP Stack for execution, Ethereum for settlement, and Celestia for DA.\n- This creates a competitive market for each layer, driving innovation and cost reduction beyond monolithic chains.
Modular
Stack
Best-in-Class
Per Layer
05
The L2 War is Now a Client War
Post-Bedrock, the core infrastructure competition shifts to client diversity and performance. A single client is a centralization risk.\n- OP Stack needs multiple, independent execution clients (like Geth, Erigon on Ethereum).\n- This reduces systemic risk and prevents chain halts due to client bugs, a lesson from past Ethereum outages.
Client Risk
Single Point
Multi-Client
Target
06
RetroPGF is the Killer App for Public Goods
Optimism's sustainable funding mechanism for ecosystem development is a structural moat. Bedrock's efficiency directly fuels this flywheel.\n- Lower chain operating costs free up more sequencer revenue for Retroactive Public Goods Funding (RetroPGF).\n- This attracts top-tier developers and infrastructure projects, creating a stronger network effect than pure token incentives.
RetroPGF
Funding Model
$100M+
Distributed
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