- Ethereum Fusaka upgrade activates in November 2025, bundling 11 EIPs focused on scalability, efficiency, and resilience.
- The fork raises gas limits, introduces PeerDAS for rollup performance, and strengthens spam resistance—all without breaking DApps.
- Fusaka sets the stage for 2026’s Glamsterdam upgrade, where bigger changes like block time reduction could double Ethereum’s throughput.
Ethereum Next Milestone Arrives
Ethereum is preparing for its next major hard fork, Fusaka, scheduled for November 2025. Unlike the highly visible Pectra upgrade earlier this year, which introduced user-facing changes such as account abstraction and staking improvements, Fusaka is more subtle but no less significant. This upgrade bundles 11 Ethereum Improvement Proposals (EIPs) focused squarely on scalability, efficiency, and node resilience.
The changes won’t alter how users interact with decentralized applications (DApps) directly, but they will strengthen Ethereum’s foundation ahead of the network’s ambitious 2026 roadmap. The timing is deliberate: developers aim to activate Fusaka just before Devconnect Buenos Aires (Nov. 17–22, 2025), ensuring the Ethereum community gathers around a live, upgraded mainnet.
Ethereum’s Upgrade Timeline: From Frontier to Fusaka
Ethereum has followed a steady rhythm of development since its launch in 2015 with Frontier, executing over a dozen execution-layer hard forks along the way. Each upgrade has either optimized the network, introduced new features, or both.
Major Ethereum Hard Forks to Date
| Year | Upgrade | Key Features |
|---|---|---|
| 2015 | Frontier | Genesis release, smart contracts introduced |
| 2016 | Homestead | Stability, network upgrades |
| 2017 | Byzantium | zk-SNARKs, privacy features |
| 2019 | Istanbul | Gas cost improvements |
| 2022 | The Merge | Transition to Proof-of-Stake |
| 2023 | Shanghai | ETH withdrawals enabled |
| 2025 | Pectra | Account abstraction, staking changes |
| 2025 | Fusaka | Scalability, node efficiency, gas limit increases |
Fusaka arrives only six months after Pectra, reflecting Ethereum’s new semiannual upgrade cadence. This rhythm allows developers to roll out smaller, incremental improvements without overwhelming node operators or breaking compatibility.
What Is the Fusaka Hard Fork?
The Ethereum Fusaka upgrade is a performance-focused overhaul. Rather than introducing flashy end-user features, it delivers 11 infrastructure-level EIPs that strengthen Ethereum’s core.
The fork is scheduled for Nov. 5, 2025 (block height to be confirmed), after rounds of devnet testing in July and two public testnets in September and October.
Fusaka’s central theme: optimize Ethereum’s plumbing so the ecosystem can scale faster and withstand greater demand.
Key Ethereum Improvement Proposals in Fusaka
The Fusaka hard fork is notable not for its volume of EIPs, but for their scope. Here are the most consequential changes:
Scalability and Rollup Efficiency
- EIP-7594 – PeerDAS: Introduces peer data availability sampling. Nodes no longer need to download full data blobs, lowering hardware requirements and making rollups more efficient.
Network Resilience
- EIP-7825 – Spam Resistance Checks: Prevents malicious spam attacks that can overload nodes.
- EIP-7823 – MODEXP Parameter Limit: Restricts input sizes for modular exponentiation, mitigating denial-of-service vectors.
Gas and Execution Efficiency
- EIP-7883 – MODEXP Gas Cost Adjustment: Updates gas pricing for heavy cryptographic operations.
- EIP-7935 – Default Block Gas Limit: Raises block gas limits toward 45 million, with a roadmap to 150 million units.
Future-Proofing
- EIP-7892 – Blob Parameter-Only Forks: Prepares Ethereum for lightweight blob-related upgrades without needing full hard forks.
- EIP-7917 – Deterministic Proposer Lookahead: Improves proposer assignment for rollups and staking.
- EIP-7951 – secp256r1 Precompile: Adds native support for P-256 elliptic curve cryptography, aligning Ethereum with Web2 security standards.
Together, these proposals give Ethereum a leaner, more resilient base layer.
Why Fusaka Matters for Ethereum’s 2025 Roadmap
Ethereum’s theoretical throughput remains modest compared to traditional payment rails. With a 36M gas limit and 12-second block times, Ethereum processes about 142 transactions per second (TPS)—a fraction of Visa’s ~65,000 TPS capacity.
Fusaka is designed to unlock more headroom by raising gas ceilings and smoothing execution. This sets the stage for upcoming proposals like:
- Block time reduction (EIP-7782): Cutting block times from 12s to 6s, effectively doubling TPS.
- Gas limit increases: Scaling block capacity without destabilizing smaller validators.
By focusing Fusaka on the invisible backend work, Ethereum developers are creating the stability needed for more radical 2026 upgrades (nicknamed Glamsterdam).
Ethereum’s Tight Testing Schedule Ahead of Devconnect
The Ethereum development community has coordinated a rapid but disciplined rollout:
- July 23, 2025: Devnet-3 launched, testing Fusaka proposals in isolation.
- Aug. 1, 2025: EIP freeze—no new features allowed, ensuring stability.
- September–October 2025: Public testnets stress-test upgrades across diverse clients.
- Nov. 5–12, 2025: Mainnet activation window, landing just before Devconnect.
This deliberate sequencing mirrors Ethereum’s long-standing “test early, test often” philosophy. As core developer Nixorokish cautioned:
“If we want to ship by Devconnect, we need our timeline TIGHT.”
The urgency reflects not just conference optics, but Ethereum’s credibility as a platform that delivers upgrades on schedule.
What Fusaka Means for Developers and Users
For Developers
- Higher gas ceilings → more transactions per block, enabling richer DApp functionality.
- PeerDAS → lighter node requirements, reducing barriers to running validators.
- New cryptographic tools → improved interoperability with Web2 systems.
For Users
- Smoother gas fees: With block space expanding, fee volatility may ease.
- More stable transaction flow: Spam resistance checks prevent congestion during peak demand.
- No disruptions: Unlike some past forks, Fusaka leaves existing contracts and interfaces untouched.
However, trade-offs remain. Bigger blocks and gas limits demand more storage and bandwidth, which may favor large-scale validators over smaller operators. Maintaining Ethereum’s decentralization will require careful balance.
Ethereum Next Horizon: Glamsterdam and Beyond
While Fusaka shores up Ethereum’s backend, the community is already eyeing 2026’s Glamsterdam upgrade. Potential changes include:
- Cutting block times to 6 seconds (doubling throughput).
- Expanding gas limits further to meet DeFi and NFT growth.
- More ETH staking updates to support validator scalability.
Also Read: Ethereum Struggles: Is a $3,000 Price Drop on the Horizon?
If Fusaka represents Ethereum’s quiet engine tune-up, Glamsterdam could be the turbocharger installation that visibly accelerates performance.
Incremental Progress, Lasting Impact
Ethereum’s Fusaka upgrade may lack the headline-grabbing features of Pectra, but it is a critical milestone. By bundling scalability, resilience, and efficiency upgrades into one fork, Ethereum is tightening its infrastructure ahead of bolder changes in 2026.
For developers, Fusaka lowers costs and smooths execution. For users, it promises steadier fees and faster confirmation times. And for Ethereum itself, it demonstrates a project still committed to iterative, predictable progress—the hallmark of its survival and growth in a fiercely competitive blockchain landscape.
As Fusaka goes live in November, Ethereum once again shows why it remains the backbone of Web3: not through flashy headlines, but through the steady evolution of its core protocol.
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