The Hidden Cost of Rollup-Specific MEV Infrastructure

Searchers must post separate bonds and manage capital across dozens of rollup environments like Arbitrum, Optimism, and Base. This creates massive capital inefficiency, reducing competition and increasing extractable value for end-users.

• Capital Silos: $50M+ in bonds locked per major chain.
• Reduced Competition: Smaller searchers are priced out, leading to oligopolies.
• Higher User Cost: Inefficiency is passed on as worse slippage and higher fees.

Protocols like Astria and Espresso propose a neutral, shared sequencing layer. This aggregates block-building across rollups into a single auction, allowing searchers to bid for cross-domain MEV opportunities with unified capital.

• Capital Efficiency: One bond for access to multiple rollup blockspaces.
• Cross-Chain Arb: Enables atomic arbitrage between Ethereum L1 and its L2s.
• Risk: Centralizes a critical liveness component; a failure halts all connected chains.

Arbitrage between Ethereum Mainnet and rollups like zkSync is slow and risky. Searchers must manage separate transactions, facing multi-block reorg risk and settlement delays, leaving significant value unextracted.

• Slow Settlement: 12-30 minute latency for optimistic rollup bridges.
• Execution Risk: Failed cross-chain trades leave assets stranded.
• Value Leakage: An estimated $2-5M daily in cross-domain MEV is left on the table.

Systems like UniswapX, CowSwap, and Across abstract execution. Users submit intent-based orders ("I want this output"), and a network of solvers competes to fulfill them optimally across any liquidity source, internalizing cross-chain MEV.

• Better Prices: Solvers absorb MEV for user benefit via PMM.
• Unified Liquidity: Taps into DEXs, private pools, and bridges atomically.
• Trade-off: Introduces solver trust assumptions and potential centralization.

Most rollups today use a single, centralized sequencer operated by the core team (e.g., Arbitrum, Optimism). This creates an opaque MEV black box where value extraction is non-transparent and uncompetitive.

• Opaque Ordering: No public mempool means no fair auction.
• Captured Value: The sequencer captures all MEV, creating a $100M+ annual subsidy.
• Censorship Risk: The operator can reorder or exclude transactions.

Adapting Ethereum's PBS model to rollups, as seen in Espresso and proposals for Arbitrum BOLD. Specialized builders compete in an open auction for block-building rights, while decentralized proposers ensure liveness. This aligns with Vitalik's rollup roadmap.

• Transparent MEV: Value is extracted via open, competitive markets.
• Decentralized Liveness: Proposer set is permissionless and stake-based.
• Complexity: Adds significant protocol and economic complexity to L2s.

Each rollup's bespoke sequencer and prover stack creates isolated MEV pools, fracturing liquidity and arbitrage opportunities. This reduces capital efficiency and increases systemic latency for cross-chain arbitrage.

• Capital Inefficiency: Liquidity is trapped, increasing spreads.
• Latency Tax: Cross-rollup arbitrage windows expand to ~12-30 seconds, vs. sub-second on a unified chain.
• Example: An arb between Arbitrum and Optimism requires bridging delays, missing optimal pricing.

Infrastructure like Espresso Systems, Astria, and Radius decouple sequencing from execution, creating a shared, neutral ordering layer. This enables atomic cross-rollup bundles and restores a unified liquidity landscape.

• Atomic Composability: Transactions across different rollups can be bundled and settled atomically.
• MEV Redistribution: Revenue can be captured at the shared layer and redistributed to rollup users or DAOs.
• Interop Boost: Enables intent-based architectures like UniswapX and Across to operate efficiently across the modular stack.

Rollup-specific MEV capture (e.g., Optimism's MEV-Boost fork) centralizes value in the rollup protocol. Shared infrastructure shifts value capture to a neutral middleware layer, creating a new investment thesis.

• Protocol Risk: Value accrual to the rollup token is diluted.
• Infrastructure Opportunity: The sequencer/prover layer becomes the new $10B+ battleground, akin to Lido in PoS.
• Due Diligence Shift: Investors must now evaluate a rollup's integration with shared sequencing stacks as a core scalability metric.

New rollups must architect for external sequencers from day one. Relying on a centralized, in-house sequencer is a technical debt that will become a competitive liability.

• Sequencer Decoupling: Use standards like RISC Zero's zkVM for portable proving to avoid vendor lock-in.
• Intent-Ready: Structure transaction flow to be compatible with SUAVE-like block builders and solvers.
• Exit Strategy: Ensure users can force-transaction inclusion via a robust escape hatch to Ethereum L1, mitigating sequencer censorship risk.