- The first demonstration that Ethereum can offer targeted, high-impact upgrades in closer to six months, rather than large, multi-year overhauls, is Fusaka.
- Under the hood, the upgrade also codifies a new method for blob capacity adjustment. Ethereum rollups make use of blobs.
While Wednesday’s Fusaka upgrade to Ethereum has been pitched as just another scaling milestone, it really signifies a change in the way the network moves forward. The first demonstration that Ethereum can offer targeted, high-impact upgrades in closer to six months, rather than large, multi-year overhauls, is Fusaka.
In keeping with the Ethereum Foundation’s 12-month roadmap, the technical headline of Fusaka is Ethereum Improvement Proposal (EIP)‑7594, Peer Data Availability Sampling (PeerDAS). This proposal alters how Ethereum processes data from rollups without requiring node operators to purchase data-center hardware or give up decentralization.
Huge Expectations
Following Dencun’s blob introduction and Pectra’s UX tightening, Fusaka expands upon those foundations. Nodes’ handling of rollup data is altered by PeerDAS. It is more efficient for validators to validate smaller portions distributed throughout the network rather than downloading whole blobs. This reduces bandwidth and data duplication, making space for more data overall.
Under the hood, the upgrade also codifies a new method for blob capacity adjustment. Ethereum rollups make use of blobs, which are data packages, to rapidly and inexpensively post massive volumes of offchain transaction data to the main chain. This allows for high-throughput layer-2 scalability without crowding the whole blockchain.
A complete hard fork was necessary to modify blob limitations prior to Fusaka. With the new “blob‑parameter‑only” schedule, Ethereum no longer has to go through the complete fork process every time an increase to blob targets is pre-planned.
Increasing the available bandwidth is only one aspect of Fusaka. Altering the fees balance between layers 1 and 2 is another effect. Ethereum’s rollup-centric future relies on a balanced relationship between L1 and L2: L2s need inexpensive and dependable data space on L1, but L1 should also be adequately rewarded for providing it.
Concerns about node requirements and home stakers arise with each upgrade that affects data availability. Extensive testnet runs were conducted to ensure that increasing blob capacity does not inadvertently drive small operators out of the market, and Fusaka has been built to remain within the limits of consumer-grade hardware.
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