Why Shared Sequencing is the Ultimate Test for Decentralization

A dominant shared sequencer becomes a centralized MEV extraction engine, forcing rollups to accept its censorship and profit-sharing terms.\n- Economic Capture: The sequencer can front-run, sandwich, and censor transactions across all connected chains.\n- Regulatory Target: A single, identifiable entity controlling $10B+ in cross-chain flow becomes a prime target for enforcement.

Decentralizing the sequencer set introduces latency and complexity that negates its core value proposition.\n- Byzantine Faults: Achieving consensus among a decentralized set adds ~500ms-2s of latency, killing high-frequency apps.\n- Weak Guarantees: A rollup's security is only as strong as its weakest sequencer, creating fragmented trust assumptions.

Competing sequencer networks (e.g., Espresso, Astria, Radius) will create walled gardens, breaking the unified liquidity promise.\n- Protocol Silos: Rollups on Sequencer A cannot atomically compose with those on Sequencer B without a trusted bridge.\n- Vendor Lock-in: Migrating between sequencers is a hard fork-level event, giving providers excessive leverage.

Sequencers that also provide data availability (DA) can hold rollups hostage by threatening to withhold transaction data.\n- Bundled Monopoly: Projects like Celestia or EigenDA avoid this, but integrated stacks create a dangerous coupling.\n- Exit Cost: Switching DA layers requires a full sequencer migration, a near-impossible coordination problem.

Sequencer revenue depends on capturing cross-chain MEV and fees, but this model is undermined by intent-based architectures.\n- UniswapX Threat: Solvers bypass the sequencer's mempool entirely, routing intents off-chain.\n- Race to Zero: Competition will drive sequencing fees to marginal cost, eliminating profitability without MEV.

A legally identifiable sequencer entity makes every rollup in its network subject to the same jurisdiction and KYC/AML demands.\n- Contagion Risk: One sanctioned rollup could force the sequencer to censor all connected chains.\n- KYC for All: To comply, the sequencer may require identity verification for all end-users, destroying pseudonymity.

Centralized sequencers are the new validators, capturing 100% of L2 MEV and creating a single point of failure. This recreates the exact extractive dynamics L2s were meant to solve.\n- Censorship Risk: Single operator can blacklist addresses.\n- Value Leakage: Billions in MEV revenue flows to a single entity, not the protocol or users.

Decouples sequencing from execution, creating a decentralized marketplace for block building. This is the data availability layer for ordering.\n- Credible Neutrality: Proposer-Builder-Separation (PBS) for rollups.\n- Interoperability: Enables atomic cross-rollup composability (e.g., UniswapX-style intents across chains).

Treats sequencing as a standalone, shared resource layer. Rollups outsource ordering, retaining sovereignty over execution and settlement. This is the modular thesis applied to time.\n- Sovereignty: Rollup retains upgrade keys and force-exit to L1.\n- Efficiency: Aggregates liquidity and reduces overhead for nascent chains.

High-frequency DEXs and games demand sub-second finality, which today requires trusted hardware or centralized operators. A decentralized sequencer network introduces ~100-500ms latency from consensus.\n- Throughput: Can still hit 10k+ TPS with optimized BFT consensus.\n- Market Fit: Not all apps need this; creates a new performance tier.