PBS is a distraction. It shifts centralization from validators to a new cartel of professional builders like Flashbots and bloXroute, who now control transaction ordering and extract maximal value. The core problem persists.
mev-the-hidden-tax-of-crypto
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Why Proposer-Builder Separation Solves the Wrong Problem
PBS was designed to prevent validator centralization from MEV. Instead, it created a new, more opaque point of centralization: the builder cartel. This analysis argues PBS merely shifts the MEV capture point in the supply chain, failing to address the core issue of value extraction from user transactions.
introduction
THE WRONG PROBLEM
Introduction: The Centralization Shell Game
Proposer-Builder Separation (PBS) addresses a symptom of MEV centralization while ignoring the root cause: the economic design of the block space market itself.
The real issue is rent-seeking. The current auction model for block space creates a zero-sum game between users and builders. PBS optimizes for builder revenue, not user outcomes, which is why protocols like UniswapX and CowSwap bypass it entirely with intent-based architectures.
Evidence is in the data. Post-PBS Ethereum sees over 90% of blocks built by just three entities. This is not decentralization; it's a relocation of power from one set of capital-heavy actors to another, more technically sophisticated one.
thesis-statement
THE INCENTIVE MISMATCH
Core Thesis: PBS Shifts, Doesn't Solve
Proposer-Builder Separation reallocates MEV extraction but fails to address the root economic incentive for maximal value extraction.
PBS optimizes for efficiency, not fairness. It formalizes the builder role, creating a hyper-competitive market for block construction that centralizes around capital-intensive players like Flashbots and bloXroute.
The economic pressure remains unchanged. Builders must still pay proposers the highest bid, forcing them to extract maximal MEV from users via arbitrage, frontrunning, and sandwich attacks to remain profitable.
This shifts risk, not reward. The user's experience with MEV—failed trades, slippage, value leakage—is identical. PBS simply moves the operational burden from validators to specialized builders.
Evidence: Post-PBS, over 90% of Ethereum blocks are built by a handful of builders. The MEV supply chain is more efficient, but user-facing negative externalities persist.
key-trends
THE WRONG PROBLEM
The Evidence: Builder Market Consolidation
Proposer-Builder Separation (PBS) was meant to decentralize block production, but the builder market has consolidated into an oligopoly, creating new systemic risks.
01
The Builder Oligopoly
The top three builders—Flashbots, bloXroute, and Builder0x69—routinely control >80% of Ethereum blocks. This centralizes censorship power and MEV extraction, the exact problems PBS was supposed to mitigate.\n- Market Share: Top 3 builders command >80% of blocks.\n- Censorship Risk: OFAC compliance is concentrated in few entities.
>80%
Top 3 Share
~5
Dominant Builders
02
The Relayer Bottleneck
Builders rely on a handful of trusted relayers (e.g., Flashbots Relay, bloXroute, Agnostic) to forward blocks to proposers. This creates a single point of failure and censorship. If a major relayer goes down or becomes malicious, the chain halts.\n- Centralized Chokepoint: ~4 major relayers secure the chain.\n- Liveness Risk: A relayer outage can stall block production.
~4
Key Relayers
100%
Liveness Dependency
03
MEV Supply Chain Capture
The PBS model created a new MEV supply chain where searchers, builders, and relayers extract value. The complexity and capital requirements have led to vertical integration, where the same entities (e.g., Flashbots with SUAVE) control multiple layers, recreating miner centralization.\n- Vertical Integration: Entities control search, build, and relay.\n- Barrier to Entry: Requires millions in capital and specialized infrastructure.
$B+
Annual MEV
High
Entry Barrier
04
The Solution: Enshrined PBS & SUAVE
The endgame is protocol-level PBS and a decentralized block-building marketplace like SUAVE. This moves trust from a few companies to cryptographic and economic guarantees, solving the relayer bottleneck and opening the builder market.\n- Protocol-Level: Builder selection and payment are in the consensus layer.\n- Decentralized Marketplace: A permissionless network for block building and MEV auction.
Protocol
Trust Layer
Permissionless
Marketplace
PBS: SOLVING THE WRONG PROBLEM
The Builder Cartel: Market Share Analysis
Comparing the centralization risks of PBS architectures against alternative designs that target the root cause: MEV supply chain control.
| Key Metric / Feature | Current PBS (e.g., Ethereum) | Enshrined PBS (EIP-4844 Proto-Danksharding) | SUAVE (Decentralized Block Building) |
|---|---|---|---|
Top 3 Builders' Market Share (30d avg) |
|
| < 33% (target) |
Relies on Centralized Relays (e.g., Flashbots, bloXroute) | |||
Cross-Domain MEV Capture Enabled | Primary Design Goal | ||
Builder Cartel Formation Risk | High (Observed) | High (Inherent) | Low (Theoretical) |
Proposer Extracted Value (PEV) Mitigation | None | None | Directly Addresses P2P Layer |
Requires Fork of Base Layer | |||
Time to Finality Impact | Adds ~1-12s delay | Adds ~1-12s delay | Adds < 1s delay (target) |
Integration Complexity for Rollups (OP Stack, Arbitrum Orbit) | High | Very High | Medium |
deep-dive
THE ARCHITECTURAL FLAW
Deep Dive: The Opaque MEV Supply Chain
Proposer-Builder Separation (PBS) formalizes MEV extraction but fails to address the fundamental information asymmetry at the network's edge.
PBS formalizes extraction. It creates a specialized market for block production, separating the validator's role from the builder's. This solves censorship resistance and validator centralization, but it institutionalizes the MEV supply chain. The builder's profit is now a formalized cost.
The real problem is opacity. PBS does not solve the information asymmetry between users and the network. Users sign transactions without knowing their execution context, creating a predictable profit margin for searchers and builders. This is the root of value leakage.
Intents are the counterpoint. Protocols like UniswapX and CowSwap demonstrate the alternative. Users submit declarative intents (e.g., 'swap X for Y at best price'), delegating execution to a competitive network of solvers. This flips the model from opaque transaction processing to transparent outcome fulfillment.
Evidence: Builder dominance. Post-PBS Ethereum sees over 90% of blocks built by a handful of entities like Flashbots. This proves PBS optimizes for validator simplicity, not user value capture. The supply chain is efficient but remains extractive by design.
counter-argument
THE ARCHITECTURAL MISMATCH
Counter-Argument & Refutation: "But PBS is In-Protocol!"
In-protocol PBS addresses a narrow auction problem while ignoring the systemic MEV supply chain.
In-protocol PBS is insufficient. It formalizes the builder role but does not solve for the economic centralization of block building. The core problem is the capital and data advantages required to win the auction, which in-protocol rules cannot regulate.
The real competition is off-chain. Builders like Flashbots and bloXroute compete in private dark pools and orderflow auctions long before the in-protocol bid. The protocol only sees the final, sanitized output, missing the extractive mechanics.
It creates a regulatory honeypot. By baking PBS into consensus, Ethereum ossifies a specific market structure. This invites scrutiny on the now-formalized builder role, unlike the flexible, off-chain model used by Solana via Jito.
Evidence: Post-PBS, the top three builders consistently produce over 80% of Ethereum blocks. The protocol mechanism changed, but the centralization outcome did not.
protocol-spotlight
BEYOND PBS
Alternative Visions: Solving the Right Problem
Proposer-Builder Separation (PBS) optimizes for maximal extractable value (MEV) capture, not user experience. Here are architectures that prioritize the latter.
01
The Problem: MEV as a Tax on Users
PBS formalizes MEV extraction, making it a predictable cost center for end-users. It solves for validator economics, not transaction finality or fairness.\n- User Impact: Front-running and sandwich attacks persist, costing DeFi users ~$1B+ annually.\n- Systemic Risk: Centralizes block building power into a few specialized builders, creating new points of failure.
$1B+
Annual Cost
~3-5
Dominant Builders
02
The Solution: Encrypted Mempools & Threshold Decryption
Prevent front-running by hiding transaction content until it's too late to exploit. Projects like Shutter Network and EigenLayer's MEV Blocker use a network of keyholders.\n- How it works: Transactions are encrypted, decrypted only after inclusion in a block.\n- Key Benefit: Eliminates >90% of harmful MEV (sandwich attacks) at the source, protecting users directly.
>90%
Harmful MEV Reduced
~500ms
Decryption Latency
03
The Solution: SUAVE - A Unified Auction Layer
Flashbots' SUAVE aims to decentralize and commoditize block building itself. It creates a separate chain for expressing and fulfilling user intents.\n- Core Shift: Moves competition from a dark pool of builders to a transparent auction for block space.\n- User Benefit: Enables cross-chain MEV and potentially better execution via competition, turning MEV into a rebate.
Cross-Chain
Execution Scope
Auction-Based
Pricing
04
The Solution: Intent-Based Architectures (Anoma, UniswapX)
Radically rethinks the transaction model. Users submit what they want (e.g., "best price for 1 ETH"), not how to do it. Solvers compete to fulfill it.\n- Paradigm Shift: Separates expression from execution, outsourcing complexity.\n- Efficiency Gain: Solvers can batch, route, and optimize across chains/DEXs, capturing MEV as savings returned to the user.
10-30%
Better Execution
Multi-Chain
Native
05
The Problem: PBS Ignores Cross-Chain Finality
PBS is a single-chain solution in a multi-chain world. The real user problem is secure, fast asset movement between sovereign chains.\n- Latency Gap: Ethereum PBS does nothing for the 5-20 minute delay in bridging.\n- Security Gap: Builders optimize for Ethereum MEV, not the security of interoperability layers like LayerZero, Axelar, or Polymer.
5-20 min
Bridge Latency
New Attack Vectors
Ignored
06
The Solution: Shared Sequencers & Atomic Cross-Chain Rolls
Networks like Astria, Radius, and Espresso provide a neutral sequencing layer for multiple rollups. This enables atomic composability across chains.\n- User Experience: Enables single-block finality for cross-rollup transactions, eliminating bridging wait times.\n- Economic Security: Decouples sequencing from execution, preventing a single rollup's PBS dynamics from harming the ecosystem.
Atomic
Cross-Chain TX
Neutral
Sequencing
future-outlook
THE REAL PRIZE
Future Outlook: The Real Battle is for Order Flow
Proposer-Builder Separation (PBS) optimizes block construction, but the true economic leverage lies in controlling the user's transaction intent before it reaches the chain.
PBS solves the wrong problem. It focuses on the final auction for block space, ignoring the more valuable upstream competition for user transactions. The real power accrues to entities that aggregate, route, and execute user intents.
Intent-based architectures are the endgame. Protocols like UniswapX, CowSwap, and Across abstract execution complexity. They own the user relationship by finding the optimal path across chains and liquidity sources, commoditizing the underlying block builders.
The battle shifts to the application layer. Wallets (Rainbow, Rabby) and aggregators become the new gatekeepers. They capture fees and data by controlling the flow of transactions before builders ever see them, making PBS a backend optimization for their services.
Evidence: UniswapX now processes over $10B in volume by acting as an intent-based settlement layer. Its success demonstrates that economic value concentrates at the point of user intent, not block production.
takeaways
BEYOND PBS
Key Takeaways for Architects
Proposer-Builder Separation addresses MEV extraction, not the fundamental economic capture of block production.
01
The Real Problem: Economic Centralization
PBS solves for fair value distribution among validators, but does nothing to prevent the vertical integration of capital, infrastructure, and data. The builder market consolidates around a few dominant players like Flashbots, creating a new, more sophisticated form of centralization.
- Builder dominance leads to predictable, rent-seeking behavior.
- The relay becomes a single point of failure and censorship.
- True decentralization requires separating capital, computation, and orchestration*.
>90%
Relay Market Share
1-3
Dominant Builders
02
Solution: Enshrined PBS & SUAVE
The endgame is protocol-level PBS, removing the trusted relay. Complementary systems like Flashbots' SUAVE aim to decentralize the builder role itself by creating a neutral, shared mempool and execution network.
- Enshrined PBS eliminates relay trust assumptions and reduces latency.
- SUAVE attempts to commoditize block building, turning it into a permissionless auction.
- This shifts the battleground from validator politics to competitive execution environments.
~0ms
Relay Latency
Permissionless
Builder Access
03
Architect for Intent, Not Transactions
The ultimate bypass to PBS complexity is moving users to intent-based architectures. Protocols like UniswapX and CowSwap delegate routing and execution to a network of solvers, abstracting away the underlying block builder market entirely.
- User submits a goal (e.g., "best price for 100 ETH"), not a transaction.
- Solver competition occurs off-chain, with results settled on-chain.
- This neutralizes builder-level MEV extraction and improves UX.
>50%
Better Prices
Gasless
User Experience
04
The Builder is the New Miner
PBS successfully transformed validators into commodity hardware operators, but simply created a new capital-intensive, data-advantaged oligopoly in the builder layer. This mirrors the ASIC/ mining pool dynamic of Proof-of-Work.
- Economic of scale in data access and cross-domain MEV are insurmountable for small players.
- The result is centralized block construction, even with decentralized block proposal.
- This necessitates continuous protocol intervention, not just a one-time separation.
$M+
Builder Capex
Oligopoly
Market Structure
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