Ethereum developers have established a comprehensive deployment schedule for the Fusaka protocol upgrade during the ACDC 165 development call. The rollout begins with the Holesky testnet on October 1, followed by sequential launches on Sepolia October 14, Hoodi October 28, and culminating with mainnet deployment December 3.
What to Know:
- Fusaka introduces 11 proposals designed to improve network scalability, validator performance, and data availability through PeerDAS integration
- The upgrade will increase gas limits to 150 million units and more than double blob capacity over two weeks following activation
- Layer 2 rollup costs are expected to decrease significantly, building on previous upgrades that reduced data availability expenses by 90%
Technical Specifications and Network Improvements
Christine Kim, former Vice President of Research at Galaxy Digital, disclosed these scheduling details through social media channels. Developers plan to confirm precise dates, epoch numbers, and activation timings within the coming days.
The Fusaka release represents Ethereum's next major protocol enhancement following the Pectra upgrade. It incorporates 11 distinct proposals targeting scalability improvements, enhanced node stability, and optimized validator operations. Central to these changes is PeerDAS implementation, which addresses data availability sampling while controlling network spam.
Additional modifications include expanded blob capacity and a substantial gas limit increase to 150 million units. These technical adjustments aim to reduce Layer 2 rollup expenses and increase overall transaction processing capacity. The upgrade also establishes infrastructure for future enhancements including accelerated block times and Verkle tree integration.
Preliminary testing on Devnet-5 indicates blob capacity should exceed double current levels within two weeks of activation. This represents a significant expansion from existing network parameters.
Developers outlined a phased approach for blob parameter optimization. Kim explained the BPO hard fork implementation will initially launch without blob capacity modifications. After one week of operation, the fork increases blob target and maximum values from 6/9 to 10/15, with a subsequent update raising these figures to 14/21 one week later.
Historical Context and Future Network Development
The December timeline positions Fusaka approximately seven months after Pectra's deployment, which introduced wallet functionality improvements and expanded validator limits for more efficient staking operations. Prior to Pectra, the Dencun upgrade launched in March 2024, enabling blob transactions and enhancing Layer-2 network scalability.
These sequential upgrades have progressively improved Ethereum's speed, cost efficiency, and processing capacity. Data availability costs for Layer 2 rollups dropped 90% following Dencun's implementation, with some protocols reducing monthly operational expenses from $15,000 to $1,500 through blob transaction adoption.
Transaction fees decreased up to 73% while Pectra raised validator limits from 32 ETH to 2,048 ETH.
Fusaka builds upon these established improvements as part of Ethereum's designated "Surge" development phase. This phase prioritizes network throughput and operational resilience through expanded blob capacity, validator system optimizations, and comprehensive PeerDAS integration. The upgrade represents continued progress toward Ethereum's long-term scalability objectives.
Separately, developer Davide Crapis announced the Ethereum Foundation's formation of a dedicated artificial intelligence unit designated the dAI Team. Primary objectives include enabling AI agents and automated systems to independently manage payments, coordination functions, and governance processes. The team will focus on developing open, verifiable systems designed to resist censorship while limiting centralized control mechanisms.
Technical Terms and Industry Context
Several key concepts define this upgrade's technical scope. Gas limits determine the computational work allowed per block, with higher limits enabling more complex transactions. Blob transactions, introduced in previous upgrades, provide cost-effective data storage for Layer 2 networks by temporarily storing data rather than permanently recording it on the main blockchain.
PeerDAS, or Peer Data Availability Sampling, represents a method for network nodes to verify data availability without downloading complete datasets. This process reduces individual node storage requirements while maintaining network security. Layer 2 rollups are secondary networks that process transactions before submitting batch summaries to Ethereum's main network, significantly reducing costs and increasing speed.
Validator limits determine the maximum ETH required for network participation in Ethereum's proof-of-stake consensus mechanism. Lower limits enable broader participation while maintaining network security through distributed validation.
Final Thoughts
Ethereum's Fusaka upgrade represents a comprehensive network enhancement targeting improved scalability and reduced operational costs through technical optimizations including expanded gas limits, enhanced blob capacity, and PeerDAS integration. The December 3 mainnet launch follows systematic testnet deployments beginning October 1, continuing Ethereum's methodical approach to protocol development.