- Ethereum’s Fusaka upgrade boosts scalability, strengthens security, and reduces hardware strain.
- PeerDAS reduces data storage requirements and facilitates more efficient Layer 2 expansion.
Ethereum developers are preparing to activate the Fusaka upgrade in December, marking the next stage of the network’s scaling roadmap.
The release combines changes to the Osaka execution layer and the Fulu consensus layer, following the earlier Pectra upgrade.
December’s Fusaka upgrade is a major step in Ethereum’s roadmap.
It’s proof that Ethereum can evolve responsibly, scaling to meet global demand without compromising decentralization.
Learn how Fusaka will unlock the next wave of growth: https://t.co/3TOda5KjY2 pic.twitter.com/jjckxKB28H
— Ethereum (@ethereum) November 12, 2025
A central feature of Fusaka is Peer Data Availability Sampling (PeerDAS), a new model for storing blob data generated by Layer 2 networks. Under the current system, every node is required to store all blob data. PeerDAS achieves this by distributing the load so that each node stores roughly one-eighth of the total.
Developers claim that the change enables a significant increase in throughput while maintaining verification standards. Data availability remains guaranteed even if only half the nodes stay online. The modification is expected to cut hardware requirements for participants and lower operating costs for Layer 2 rollups.
The upgrade also introduces Blob-Parameter-Only Forks, which allow Ethereum to adjust blob capacity without coordinating a full network upgrade. Engineers argue the mechanism allows the chain to respond more quickly to traffic spikes, rather than waiting for scheduled hard forks.
New Limits Target Predictability and Security
Other changes in Fusaka focus on risk reduction. EIP-7823 sets strict limits on inputs for MODEXP operations to prevent oversized computations from affecting client performance. The network will move to a fixed transaction gas limit of 16,777,216 gas and a 10 MiB block-size ceiling aimed at stabilizing block propagation during high-usage periods.
Researchers note that predictable parameters could reduce congestion and help developers plan for peak activity. The emphasis on consistency comes as Ethereum teams continue to push for more trust-minimized infrastructure.
As CNF previously reported, Vitalik Buterin recently signed the Trustless Manifesto, which urges builders to avoid intermediary-based systems as more Layer 2 products reach the market.
Beacon Chain Updates and New Authentication Support
Fusaka also introduces tools that are expected to change how developers handle transactions and authentication. EIP-7917 will enable the Beacon Chain to identify block proposers more efficiently, facilitating easier management of transaction timing and preconfirmation features by applications.
The upgrade adds a “Count Leading Zeros” opcode to simplify certain calculations in smart contracts. Additionally, Ethereum will integrate native support for the secp256r1 cryptographic curve, which is used in hardware-based authentication systems such as Apple’s Secure Enclave and FIDO2.
Teams working on wallet infrastructure anticipate that the change will streamline passkey support. The Fusaka release represents one of Ethereum’s most substantial sets of protocol changes since Pectra.
Ethereum Price Tests Critical Levels
Ethereum’s price has weakened ahead of the December 3 Fusaka activation. ETH is trading near $3,400, down 1.4% over the past 24 hours, slipping below the previous support zone at $3,550 and moving toward a key area around $3,450.
Market analyst Lennaert Snyder identified $3,590 as a key resistance level. A move above that range could open a path toward $3,640, but a failure to break through may encourage short positioning. Snyder noted that Ethereum recently tested $3,400 and bounced, while the $3,570 region remains a short-term obstacle.