First-price auctions are broken. The dominant model on Ethereum and most L2s forces users to overpay, creating a massive MEV tax and poor user experience. Users must guess the 'right' gas price, a process that is opaque and inefficient.
solana-and-the-rise-of-high-performance-chains
Blog
The Future of Transaction Fees: Beyond First-Price Auctions
First-price auctions create inefficient gas wars. Modern chains like Solana and Ethereum are adopting priority fee models that decouple security from speed, creating fairer and more predictable fee markets.
introduction
THE FEE MARKET REVOLUTION
Introduction
First-price auction fee models are a legacy design that extracts maximum value from users, but new mechanisms are emerging to align incentives and reduce waste.
The future is intent-based. Protocols like UniswapX and CowSwap abstract gas fees by letting users submit desired outcomes, not transactions. Solvers compete to fulfill these intents, internalizing complexity and cost.
Fee markets will become commoditized. Just as AWS abstracted server provisioning, new standards like ERC-4337 (Account Abstraction) and EIP-1559's base fee are the first steps toward predictable, user-friendly fee layers. The winning L2 will have the best fee market, not just the lowest nominal cost.
thesis-statement
THE FEE MARKET REVOLUTION
Thesis Statement
First-price auctions are a primitive, extractive fee mechanism that will be replaced by intent-based systems and specialized co-processors, fundamentally reshaping user experience and protocol economics.
First-price auctions are broken. They create winner's curse and MEV extraction, forcing users to overpay for block space while validators capture the surplus. This is the dominant model on Ethereum and most L1s.
Intent-based architectures solve this. Protocols like UniswapX and CowSwap shift the paradigm from transaction execution to outcome declaration, enabling batch auctions and MEV recapture for users.
Specialized fee markets will emerge. High-frequency DeFi will use shared sequencers like Espresso for atomic composability, while social apps will adopt blob storage solutions like EIP-4844 on Ethereum.
Evidence: Arbitrum's adoption of EIP-4844 reduced L1 settlement costs by over 90%, proving that fee disaggregation is the path to sustainable scaling and better UX.
market-context
THE INCENTIVE MISMATCH
Market Context: The High-Performance Fee War
First-price auctions for transaction fees create volatile, inefficient markets that waste user capital and block space.
First-price auctions are wasteful. Users overpay to outbid each other, creating fee volatility that makes cost prediction impossible. The winning bid sets the price for all, transferring user surplus to validators instead of the network.
EIP-1559 introduced a base fee. This burned, algorithmic fee creates a predictable fee floor, but the tip remains a first-price auction. This hybrid model reduces volatility but fails to solve the incentive misalignment for block builders.
MEV-aware protocols are the next evolution. SUAVE and Flashbots Protect abstract fee logic into intent-based systems. Users submit desired outcomes, while builders compete on execution quality, not just fee price.
The future is fee abstraction. UniswapX and CowSwap demonstrate that batch auctions and solver networks extract better prices than public mempools. The fee war shifts from the public chain to private orderflow auctions.
key-trends
BEYOND FIRST-PRICE AUCTIONS
Key Trends: The New Fee Market Architecture
The legacy fee market is a wasteful, opaque auction. The future is about efficient price discovery, intent abstraction, and programmable fee logic.
01
The Problem: MEV Extraction as a Tax
First-price auctions force users to overpay, creating a ~$500M+ annual MEV tax for searchers and validators. The winning bid is the highest, not the fair, price.\n- Inefficient: Winners pay far above the clearing price.\n- Opaque: Users have no insight into true execution costs.\n- Centralizing: Favors sophisticated players with advanced bots.
$500M+
Annual MEV
~20%
Overpayment
02
The Solution: MEV Auctions & PBS
Proposer-Builder Separation (PBS) and MEV auctions like Ethereum's PBS and Solana's Jito formalize the market. Builders compete to create the most valuable block, paying the proposer.\n- Efficiency: Fees approach true market-clearing price.\n- Transparency: MEV is captured on-chain as a public bid.\n- Redistribution: Revenue can be shared with users via mechanisms like MEV burn or MEV smoothing.
>90%
PBS Adoption
JTO
Key Entity
03
The Abstraction: Intents & Order Flow Auctions
Users declare what they want, not how to do it. Solvers (like in UniswapX and CowSwap) compete in an order flow auction (OFA) for best execution.\n- Better Prices: Solvers internalize MEV for user benefit.\n- Gasless UX: Users sign intents, solvers pay gas.\n- Composability: Enables cross-chain intents via Across and layerzero.
~$10B+
OFA Volume
-99%
Gas for User
04
The Future: Programmable Fee Markets
Fee markets become a programmable primitive. Projects like EigenLayer and Espresso enable application-specific fee logic and time-based fee guarantees.\n- App-Chain Control: Rollups can implement custom auction logic.\n- Predictable Costs: Users can buy fee hedges or futures.\n- Shared Security: Fee revenue can secure other services via restaking.
$15B+
Restaked TVL
Custom
Auction Logic
AUCTION MECHANICS
Fee Model Comparison: Legacy vs. Modern
A first-principles comparison of transaction fee market designs, from legacy first-price auctions to modern intent-based and aggregated systems.
| Feature / Metric | Legacy First-Price (Ethereum Pre-1559) | Modern EIP-1559 (Base Fee + Tip) | Intent-Based & Aggregation (UniswapX, CowSwap) |
|---|---|---|---|
Auction Type | First-Price Sealed-Bid | Base Fee + Priority Tip Auction | Batch Auction / Dutch Auction |
User Experience | Gas Estimation Guessing Game | Predictable Base, Variable Tip | Gasless Signature & Post-Execution Settlement |
Fee Predictability | Low (Volatile, Front-Runnable) | Medium (Predictable Base Fee Block-to-Block) | High (Guaranteed Quote, No Slippage) |
Primary Fee Driver | User Bid Competition | Network Congestion (Base) + Priority (Tip) | Solver Competition & MEV Capture |
MEV Extraction Surface | High (Front-running, Sandwiching) | Medium (Tip-based priority ordering) | Low (Internalized by Solvers, Shared via Cow DAO) |
Typical Fee Overpayment | High (Winning Bid Pays Own Bid) | Reduced (Pays Base + Tip, Not Full Bid) | Minimal (Pays Executed Price, Not Bid) |
Fee Burning Mechanism | None (All to Miner) | Yes (Base Fee Burned, Tip to Proposer) | Variable (Solver Fees, Potential Surplus Refunds) |
Key Infrastructure Dependency | Gas Oracles (e.g., GasNow) | Block Builders & MEV-Boost Relays | Solver Networks & Intents Infrastructure (Across, Anoma) |
deep-dive
THE MECHANICS
Deep Dive: How Priority Fees Actually Work
Priority fees are a second-price auction mechanism that decouples transaction inclusion from execution speed.
Priority fees are a second-price auction. This mechanism ensures users pay the minimum necessary fee to outbid the next-highest payer for block space, preventing overpayment. It replaces the wasteful first-price model where users guess the optimal bid.
The fee market has two distinct layers. The base fee is algorithmically burned to regulate network congestion. The priority fee is a direct tip to validators for ordering transactions, creating a separate market for speed.
Ethereum's EIP-1559 formalized this split. The protocol now explicitly defines a max_priority_fee_per_gas field. This allows wallets like MetaMask and frameworks like Ethers.js to provide users with clear fee estimation data.
Validators maximize profit by ordering transactions. They sort the mempool by priority fee, not total gas price. This creates a predictable economic game where users bid for position, not just inclusion.
protocol-spotlight
THE FUTURE OF TRANSACTION FEES
Protocol Spotlight: Architects of the New Market
First-price auctions are inefficient, opaque, and extractive. A new wave of protocols is redesigning fee markets from first principles.
01
MEV is the Real Tax
The problem isn't just high base fees; it's the hidden cost of maximal extractable value. Searchers and validators exploit transaction ordering for $500M+ annual profit, creating a toxic, zero-sum environment for users.
- Key Benefit: Protocols like Flashbots SUAVE and CowSwap aim to democratize and redistribute this value.
- Key Benefit: Fair ordering and pre-confirmation services can eliminate front-running.
$500M+
Annual Extract
~0.3 ETH
Avg. Bundle Tip
02
EIP-1559 Was Just the First Step
Ethereum's base fee burn introduced a predictable fee floor, but it didn't solve the priority fee auction. The next evolution is time-based (PBS) and intent-based fee markets.
- Key Benefit: Proposer-Builder Separation (PBS) outsources block building to a competitive market, reducing validator-level MEV.
- Key Benefit: UniswapX and Across use intents, letting solvers compete on total execution cost, not just gas price.
>3M ETH
Burned to Date
~15%
Fee Volatility Drop
03
The Rise of the Solver Network
The future is a competitive network of specialized solvers, not a monolithic mempool. Users express desired outcomes (intents), and solvers—like those on UniswapX or Cow Protocol—bid for the right to fulfill them optimally.
- Key Benefit: Users get better prices and guaranteed execution without understanding gas mechanics.
- Key Benefit: Fee efficiency shifts from user bidding wars to solver competition on algorithmic optimization.
10-20%
Better Execution
~100ms
Solver Latency
04
LayerZero's Omnichain Fee Abstraction
Cross-chain transactions expose the worst of fee markets: managing multiple native tokens and unpredictable costs. LayerZero's V2 introduces a unified gas model, allowing fees to be paid in any asset on any chain.
- Key Benefit: Absolute UX simplification—users never need chain-native gas tokens.
- Key Benefit: Relayers and executors compete in a backend market, abstracting complexity from the end-user.
50+
Chains Supported
1-Click
Cross-Chain UX
05
Modular Fee Markets with Celestia
Monolithic chains have monolithic fee spikes. Modular architectures, like those enabled by Celestia for data availability, allow execution layers to design purpose-built fee markets. Rollups can implement EIP-4844 blobs, PBS, or novel auction types without L1 constraints.
- Key Benefit: Specialized fee markets for gaming, DeFi, or social apps.
- Key Benefit: Isolated congestion—a spike on one rollup doesn't affect others.
$0.001
Blob Cost Target
1000+ TPS
Per Rollup
06
Private Mempools as a Premium Service
The public mempool is a hunting ground. The response is encrypted, private order flow. Protocols like Flashbots Protect, Eden Network, and BloXroute offer private RPC endpoints that shield transactions until inclusion.
- Key Benefit: Near-zero front-running risk for sensitive DeFi trades and NFT mints.
- Key Benefit: Creates a fee market for privacy and security, not just speed.
>30%
Of Ethereum Flow
99.9%
MEV Protection
counter-argument
THE UX TRAP
Counter-Argument: Complexity is the Enemy
Sophisticated fee mechanisms create user experience friction that hinders mainstream adoption.
Complexity alienates users. The cognitive load of understanding EIP-1559's base fee, priority fee, and MEV burn is prohibitive for non-technical users, who default to centralized exchanges.
Abstraction layers fail. Wallets like MetaMask and Rabby attempt to abstract gas, but their fee estimation is often inaccurate, leading to failed transactions and user frustration.
The MEV-proof paradox. Solutions like Flashbots Protect and CowSwap require users to understand MEV itself, creating a prerequisite knowledge barrier for basic safety.
Evidence: Adoption of EIP-1559 shows the limit. Despite its elegance, most users still rely on wallet defaults, proving they prioritize simplicity over optimal fee payment.
future-outlook
THE POST-AUCTION ERA
Future Outlook: The End of the Gas Token?
First-price auctions for block space are being replaced by more efficient, user-centric fee models that abstract gas complexity.
First-price auctions are inefficient. They force users to overpay and create a poor UX, wasting billions annually in MEV. The future is intent-based architectures like UniswapX and CowSwap, where users submit desired outcomes, not transactions.
Gas abstraction becomes mandatory. Protocols like Arbitrum and Starknet are implementing account abstraction (ERC-4337), enabling sponsored transactions and paymasters. This shifts the fee burden from end-users to dApps, which then optimize costs at scale.
The gas token's role diminishes. In a world of intents and abstraction, the native token is a backend settlement rail, not a user-facing requirement. Modular execution layers like EigenDA and Celestia further decouple data availability costs from execution fees.
Evidence: Ethereum's Pectra upgrade includes EIP-7702, a major step toward native account abstraction. Solana's localized fee markets and Sui's storage fund demonstrate that dynamic fee models are already replacing monolithic gas.
takeaways
ACTIONABLE INSIGHTS
Takeaways
First-price auctions are a legacy design that extracts maximum value from users. The future is fee markets that align incentives and redistribute value.
01
The Problem: MEV is a Tax, Not a Feature
First-price auctions turn block space into a pure financial instrument, where ~$1.2B in MEV annually is extracted from users. This creates systemic risks like time-bandit attacks and frontrunning, forcing protocols like Uniswap and Aave to build costly mitigations.
- Key Benefit 1: Recognizing MEV as a cost shifts design focus from extraction to efficiency.
- Key Benefit 2: Creates a clear valuation model for solutions like Flashbots SUAVE or shared sequencers.
$1.2B
Annual Extract
>90%
User Loss
02
The Solution: Intent-Based Architectures
Instead of broadcasting precise transactions, users submit desired outcomes (intents). Solvers compete off-chain to fulfill them optimally, capturing efficiency gains as profit. This is the core innovation behind UniswapX, CowSwap, and Across.
- Key Benefit 1: Users get better prices and guaranteed execution, paying for results, not attempts.
- Key Benefit 2: Transforms the fee market from a blind auction into a competition for service quality.
10-50%
Price Improvement
~0
Failed Tx Cost
03
The Enabler: Credible Neutral Sequencing
The final piece is a decentralized, neutral block builder/sequencer that cannot censor or reorder transactions for profit. This is the goal of Ethereum's PBS, Espresso Systems, and Astria.
- Key Benefit 1: Separates profit-seeking (solving) from truth-seeking (consensus), reducing centralization risk.
- Key Benefit 2: Enables a liquid market for block space where value flows to solvers and users, not just validators.
1-N
Builder Competition
100%
Censorship Resistance
04
The Endgame: Fee Markets as Protocol Revenue
Sophisticated fee markets become a core protocol primitive and revenue stream. Imagine EigenLayer restakers earning fees from intent settlement, or an L2 like Arbitrum capturing value from its native order flow.
- Key Benefit 1: Aligns long-term sustainability; protocols profit from user success, not their failure.
- Key Benefit 2: Creates a defensible moat based on economic efficiency, not just technical throughput.
New
Revenue Stack
Protocol-Owned
Liquidity
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