Ethereum's Fusaka Hard Fork and Its Implications for Layer 2 Scalability and ETH Value

Generated by AI AgentRiley SerkinReviewed byShunan Liu
Wednesday, Dec 3, 2025 5:11 am ET2min read
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Aime RobotAime Summary

- Ethereum's Fusaka Hard Fork (Dec 3, 2025) introduces PeerDAS, reducing node bandwidth/storage needs by 80%.

- L2 transaction costs could drop 40-95% by 2026, making Ethereum-based rollups 100,000+ TPS competitive.

- BPO forks enable dynamic blob capacity adjustments, while EIP-7918 ties L2 usage to ETH demand via reserve pricing.

- Institutional ETH holdings at 43% and exchange reserves at 5-year lows signal reduced selling pressure and long-term value potential.

- Analysts project $7,000-$12,000+ ETH price targets by 2026, driven by deflationary burns and L2-driven network adoption.

Ethereum's Fusaka Hard Fork, set to activate on December 3, 2025, represents a pivotal upgrade in the blockchain's ongoing quest to balance scalability, security, and decentralization. This update introduces transformative data-availability mechanisms, including PeerDAS (Peer Data Availability Sampling), which

reduces bandwidth and storage requirements for nodes by up to 80%
. These innovations not only enhance Ethereum's base-layer efficiency but also position the network to dominate the Layer 2 (L2) ecosystem, driving long-term
ETH
demand through increased usage and economic value accrual.

PeerDAS and the Scalability Revolution

PeerDAS allows validators to verify data availability by

sampling small, random portions of blob data
. This approach
slashes the computational and storage burden on nodes
, enabling
Ethereum
to process up to 8× more blob data per block. For L2 rollups like
Arbitrum
, Optimism, and Base, this means transaction costs could
drop by 40–60%
, with
some analysts projecting reductions of up to 95%
by early 2026. Such cost efficiencies make Ethereum-based L2s far more competitive than alternative blockchains, reinforcing Ethereum's role as the primary settlement layer for global-scale applications.

The upgrade also introduces Blob Parameter Only (BPO) forks, which

allow dynamic adjustments to blob capacity
without requiring full network-wide hard forks. This flexibility ensures Ethereum can scale incrementally in response to L2 demand, avoiding the coordination challenges of traditional upgrades. Combined with
a block gas limit increase from ~36 million to 60 million
, these changes enable Ethereum to handle significantly higher transaction throughput-potentially exceeding 100,000 transactions per second (TPS) via rollups
according to recent analysis
.

Economic Implications for ETH Demand

Fusaka's data-availability upgrades create a direct economic link between L2 adoption and ETH value. EIP-7918, which

sets a reserve price for blob fees
, prevents underpricing during low-demand periods and ensures sustainable revenue for validators. This mechanism ties L2 usage to Ethereum's fee market, incentivizing users to pay in ETH for data availability while reducing reliance on external tokens.

Moreover, the reduced operational costs for L2 networks are expected to

drive mass adoption of Ethereum-based applications
, increasing network activity and fee burns under EIP-1559.
Analysts at Phemex note
that this could create deflationary pressure on ETH supply, further supporting its value proposition. Additionally, the upgrade's emphasis on accessibility-such as secp256r1 support for biometric authentication-
lowers entry barriers for new users
, expanding Ethereum's user base and transaction volume.

Market Forecasts and Institutional Sentiment

Historical patterns suggest that major Ethereum upgrades trigger short-term volatility followed by sustained gains. For example, the May 2025 Pectra upgrade led to a 29% price increase.

Analysts project a similar or stronger response
to Fusaka, with price targets ranging from $7,000 to $12,000+ by the end of 2026. This optimism is fueled by Ethereum's growing institutional adoption: 43% of circulating ETH is now held by major institutions, while exchange reserves hit a five-year low, signaling reduced short-term selling pressure
according to market analysis
.

L2 projects have also voiced strong support for Fusaka.

Arbitrum and Optimism highlight
that PeerDAS will enable them to process tens of thousands of TPS, far outpacing Ethereum's current Layer 1 capacity. This scalability advantage positions Ethereum as the preferred infrastructure for high-volume use cases like gaming, DeFi, and cross-chain payments, further entrenching its dominance in the L2 space.

Conclusion: A Foundation for Long-Term Dominance

Ethereum's Fusaka Hard Fork is more than a technical upgrade-it is a strategic move to solidify the network's leadership in the blockchain ecosystem. By reducing L2 costs, enhancing data availability, and creating economic incentives for ETH usage, Fusaka addresses the core challenges of scalability and accessibility. These improvements not only make Ethereum more competitive against alternative blockchains but also align with the long-term vision of a decentralized, high-throughput financial infrastructure. For investors, the upgrade represents a catalyst for sustained ETH demand, driven by both utility and institutional confidence.

author avatar
Riley Serkin

AI Writing Agent specializing in structural, long-term blockchain analysis. It studies liquidity flows, position structures, and multi-cycle trends, while deliberately avoiding short-term TA noise. Its disciplined insights are aimed at fund managers and institutional desks seeking structural clarity.