Thanks to Alex Stokes and Al N for helpful discussions and review.

Vitalik recently published a post called “The Three Transitions” envisioning a future for Ethereum where most user activity migrates to L2s. For some applications, such as onchain games and similar compute intensive apps, that have not seen much development/adoption at L1 to date, migration will be easy and some of them will be L2-native. For others, such as DeFi apps, migrating to L2 will be more challenging. This post discusses some of the benefits and paths for such migration.

Note: this is not suggested as a solution to the current problems with DeFi on L1. It is an exploration of how a mature L2 ecosystem could help overcome the constraints imposed by the L1 protocol.

Why low latency of execution is good for DeFi

One of the major challenges for DeFi applications on Ethereum L1 has been the relatively high latency. Take DEXs for example, such as Uniswap. A latency of 12s, the current slot time at L1, presents a few key problems:

Today most of the volume going through DEXs on Ethereum L1 is on token pairs that are also listed on one of the many CEXs. This sets a high bar for efficiency of DEXs. Some users will always prefer DEXs for ideological reasons, but if we want to drive major adoption and massively increase the value that flows through the ETHconomy we must offer an alternative that is competitive with CEXs. There is always going to be a trade-off between decentralization and efficiency, but if we can close the efficiency gap enough I believe the higher robustness of DEXs together with the redistribution of rents that are captured by CEXs operators will make DEXs the preferred option for the majority of users.

On the market manipulation side, a DEX that makes progress at 12s snapshots, while the CEX counterparts operate at much higher frequency (often sub-ms), allows many degrees of freedom for sophisticated players to take advantage of opportunities and exploit less informed users. The value of transaction reordering is high and market operators (including arbitrageurs) compete on amount of capital, private information, algorithms, and latency. Smaller players are at a disadvantage which only exaggerates as the block latency grows. Systems to prevent exploits such as OFAs and privacy solutions can be deployed to mitigate exploits, but only to some extent if latency remains high.

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The Uniswap v3 ETH/USDC pool on Ethereum L1 and Arbitrum L2 (both 0.05 fee) — The trade volume on L1 is only 0.52x the TVL while on L2 is 1.43x the TVL, almost three times higher. This is likely due to both lower transaction fees on L2 and lower latency, the result is 3x more fees for LPs.

Why low latency is not feasible for Ethereum L1

The most fundamental resource that Ethereum L1 offers is its credibility. The ability to convince any potential user of the integrity of the protocol being executed. Ethereum makes an extreme design choice, similar to Bitcoin, which is trust minimization. I.e., the credibility does not rely on a third party but on direct verification of valid execution by the users of the protocol. This buys an important practical property which is the social scalability of the protocol, its ability to being safely adopted by the most numerous, diverse, and widespread group of users. As a concrete example, Bitcoin as high social scalability because the requirements to run Bitcoin Core are modest, a low-bandwidth internet connection and a personal computer with a few GB of storage. This makes it a truly global digital gold (or money, depending on your perspective), a new kind of digital institution that has no limits of jurisdiction, ethnicity, belief, birthright typical of traditional human institutions. Ethereum aims at providing similar guarantees for its native currency and a robust foundational layer for any other kind of digital institution that is built on top of it.

Social scalability comes at the cost of performance, as Nick Szabo summarizes it in his 2017 essay Money, Blockchains, and Social Scalability:

“That is what proof-of-work and broadcast-replication are about: greatly sacrificing computational scalability in order to improve social scalability.”

and

“Bitcoin offends the sensibilities of resource-conscious and performance-measure-maximizing engineers and businessmen alike.”

Bitcoin makes extreme design choices in terms of network redundancy and security, with very long block times of about 10 minutes. This is feasible because of its radical focus on optimizing for a “single app” and high resistance to change. Ethereum tries to make a more balanced trade-off that can enable applications without compromising the credibility of its base layer protocol and its native currency. The current block time of 12 seconds requires substantial computational resources to run the protocol (much higher than Bitcoin). This is already a compromise in its social scalability, and it will be difficult to justify eroding it further to increase the efficiency (via lower latency) of one, although very important, application such as DeFi.

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The performance-social scalability trade-off — Ethereum currently has a higher bar then Bitcoin in terms of resource requirements and higher performance. High-throughput chains greatly sacrifice social scalability.

Why rollup centric roadmap is the solution for efficient DeFi and MEV mitigation

Fortunately, there are different ways of navigating the trade-off. Technological improvements at the base layer can sometimes increase both, but only to some extent. The direction that Ethereum is pursuing is to have a modular design where the base layer maintains high social scalability and achieves higher performance via L2 chains. Technological improvements at L1, such as DAS, are focused on this direction.