Ethereum activated the Fusaka improve on Dec. 3, 2025, elevating the community’s knowledge availability capability via Blob Parameter Overrides that incrementally expanded blob targets and maximums.
Two subsequent changes raised the goal from 6 blobs per block to 10, then to 14, with a most ceiling of 21. The objective was to scale back layer-2 rollup prices by growing throughput for blob knowledge, the compressed transaction bundles that rollups submit to Ethereum for safety and finality.
Three months into knowledge assortment, the outcomes reveal a spot between capability and utilization. A MigaLabs evaluation of over 750,000 slots since Fusaka’s activation exhibits that the community is not reaching the goal blob depend of 14.
Median blob utilization truly declined after the primary parameter adjustment, and blocks containing 16 or extra blobs exhibit elevated miss charges, suggesting reliability degradation on the edges of latest capability.
The report’s conclusion is direct: no additional will increase within the blob parameter till high-blob miss charges normalize and demand materializes for the headroom already created.
What Fusaka modified and when it occurred
Ethereum’s pre-Fusaka baseline, established via EIP-7691, set the goal at 6 blobs per block with a most of 9. The Fusaka improve launched two sequential Blob Parameter Override changes.
The primary was activated Dec. 9, elevating the goal to 10 and the utmost to fifteen. The second was activated Jan. 7, 2026, pushing the goal to 14 and the utmost to 21.
These adjustments did not require arduous forks, and the mechanism permits Ethereum to dial capability via shopper coordination relatively than protocol-level upgrades.
The MigaLabs evaluation, which revealed reproducible code and methodology, tracked blob utilization and community efficiency throughout this transition.
It discovered that the median blob depend per block fell from 6 earlier than the primary override to 4 afterward, regardless of the community’s capability increasing. Blocks containing 16 or extra blobs stay extraordinarily uncommon, occurring between 165 and 259 instances every throughout the remark window, relying on the precise blob depend.
The community has headroom it is not utilizing.
One parameter discrepancy: the report’s timeline textual content describes the primary override as elevating the goal from 6 to 12, however the Ethereum Basis’s mainnet announcement and shopper documentation describe the adjustment as 6 to 10.
We use the Ethereum Basis’s parameters as supply: 6/9 baseline, 10/15 after the primary override, 14/21 after the second. Nonetheless, we deal with the report’s dataset for noticed utilization and miss-rate patterns because the empirical spine.
Miss charges climb at excessive blob counts
Community reliability measured via missed slots, that are blocks that fail to propagate or attest appropriately, exhibits a transparent sample.
At decrease blob counts, the baseline miss price sits round 0.5%. As soon as blocks attain 16 or extra blobs, miss charges climb to 0.77% to 1.79%. At 21 blobs, the utmost capability launched within the second override, the miss price hits 1.79%, greater than triple the baseline.
The evaluation breaks this down throughout blob counts from 10 to 21, displaying a gradual degradation curve that accelerates previous the 14-blob goal.
This degradation issues as a result of it suggests the community’s infrastructure, akin to validator {hardware}, community bandwidth, and attestation timing, struggles to deal with blocks on the higher finish of capability.
If demand ultimately rises to fill the 14-blob goal or push towards the 21-blob most, the elevated miss charges may translate into significant finality delays or reorg threat. The report frames this as a stability boundary: the community can technically course of high-blob blocks, however doing so persistently and reliably stays an open query.
Blob economics: why the reserve worth ground issues
Fusaka did not solely broaden capability. It additionally modified blob pricing via EIP-7918, which introduces a reserve worth ground to forestall blob auctions from collapsing to 1 wei.
Earlier than this variation, when execution prices dominated and blob demand stayed low, the blob base charge may spiral downward till it successfully disappeared as a worth sign. Layer-2 rollups pay blob charges to submit their transaction knowledge to Ethereum, and people charges are speculated to replicate the computational and community prices that blobs impose.
When charges fall to close zero, the financial suggestions loop breaks, and rollups devour capability with out paying in proportion. This leads to the community dropping visibility into precise demand.
EIP-7918’s reserve worth ground ties blob charges to execution prices, guaranteeing that even when demand is delicate, the worth stays a significant sign.
This prevents the free-rider drawback the place low cost blobs encourage wasteful utilization and gives clearer knowledge for future capability choices: if blob charges keep elevated regardless of elevated capability, demand is real; in the event that they collapse to the ground, headroom exists.
Early knowledge from Hildobby’s Dune dashboard, monitoring Ethereum blobs, exhibits that blob charges have stabilized after Fusaka relatively than persevering with the downward spiral seen in earlier durations.
The typical blob depend per block confirms MigaLabs’ discovering that utilization hasn’t surged to fill the brand new capability. Blocks routinely carry fewer than the 14-blob goal, and the distribution stays closely skewed towards decrease counts.
What the information reveals about effectiveness
Fusaka succeeded in increasing technical capability and proving the Blob Parameter Override mechanism works with out requiring contentious arduous forks.
The reserve worth ground seems to be functioning as supposed, stopping blob charges from turning into economically meaningless. However utilization lags behind capability, and reliability on the edges of latest capability exhibits measurable degradation.
The miss price curve suggests Ethereum’s present infrastructure comfortably handles the pre-Fusaka baseline and the primary override’s 10/15 parameters, however begins to pressure previous 16 blobs.
This creates a threat profile: if layer-2 exercise surges and pushes blocks towards the 21-blob most often, the community may face elevated miss charges that compromise finality and reorg resistance.
Demand patterns provide one other sign. Median blob utilization falling after the primary override, regardless of elevated capability, means that layer-2 rollups aren’t presently constrained by blob availability.
Both their transaction volumes have not grown sufficient to require extra blobs per block, or they’re optimizing compression and batching to suit inside current capability relatively than increasing utilization.
Blobscan, a devoted blob explorer, exhibits particular person rollups posting comparatively constant blob counts over time relatively than ramping as much as exploit new headroom.
The pre-Fusaka concern was that restricted blob capability would bottleneck Layer 2 scaling and preserve rollup charges elevated as networks competed for scarce knowledge availability. Fusaka addressed the capability constraint, however the bottleneck seems to have shifted.
Rollups aren’t filling the out there area, which suggests both demand hasn’t arrived but or different elements, akin to sequencer economics, consumer exercise, and cross-rollup fragmentation, are limiting development greater than blob availability was.
What comes subsequent
Ethereum’s roadmap consists of PeerDAS, a extra basic redesign of information availability sampling that may additional broaden blob capability whereas bettering decentralization and safety properties.
Nonetheless, the Fusaka outcomes counsel that uncooked capability is not the binding constraint proper now.
The community has room to develop into the 14/21 parameters earlier than needing one other enlargement, and the reliability curve at excessive blob counts signifies that infrastructure upgrades might have to catch up earlier than capability will increase once more.
The miss price knowledge gives a transparent boundary situation. If Ethereum pushes capability larger whereas 16+ blob blocks nonetheless present elevated miss charges, it dangers introducing systemic instability that might floor throughout high-demand durations.
The safer path is to let utilization rise towards the present goal, monitor whether or not miss charges enhance as shoppers optimize for larger blob hundreds, and alter parameters solely as soon as the community demonstrates it may reliably deal with edge instances.
Fusaka’s effectiveness relies on the metric. It expanded capability efficiently and stabilized blob pricing via the reserve ground. It did not drive speedy utilization will increase or resolve the reliability challenges at most capability.
The improve created headroom for future development, however whether or not that development materializes stays an open query the information hasn’t answered but.
