Futures
Hundreds of contracts settled in USDT or BTC
TradFi
Gold
Trade global traditional assets with USDT in one place
Options
Hot
Trade European-style vanilla options
Unified Account
Maximize your capital efficiency
Demo Trading
Futures Kickoff
Get prepared for your futures trading
Futures Events
Participate in events to win generous rewards
Demo Trading
Use virtual funds to experience risk-free trading
Launch
CandyDrop
Collect candies to earn airdrops
Launchpool
Quick staking, earn potential new tokens
HODLer Airdrop
Hold GT and get massive airdrops for free
Launchpad
Be early to the next big token project
Alpha Points
Trade on-chain assets and enjoy airdrop rewards!
Futures Points
Earn futures points and claim airdrop rewards
Investment
Simple Earn
Earn interests with idle tokens
Auto-Invest
Auto-invest on a regular basis
Dual Investment
Buy low and sell high to take profits from price fluctuations
Soft Staking
Earn rewards with flexible staking
Crypto Loan
0 Fees
Pledge one crypto to borrow another
Lending Center
One-stop lending hub
VIP Wealth Hub
Customized wealth management empowers your assets growth
Private Wealth Management
Customized asset management to grow your digital assets
Quant Fund
Top asset management team helps you profit without hassle
Staking
Stake cryptos to earn in PoS products
Smart Leverage
New
No forced liquidation before maturity, worry-free leveraged gains
GUSD Minting
Use USDT/USDC to mint GUSD for treasury-level yields
Ethereum after Fusaka Upgrade: The Challenges with Increased Blob Data Capacity
The latest Fusaka upgrade has posed new challenges for Ethereum developers. The eightfold increase in Blob data volumes for Layer-2 solutions aims to improve scalability, but practical implementation reveals significant network vulnerabilities. Several independent research initiatives have simultaneously uncovered identical issues that arise when too many blocks with increased data loads are processed simultaneously.
Blob Capacity and Its Impact on Network Stability
The Fusaka upgrade aimed to utilize data capacity more efficiently through a massive increase in Blob counts. However, this very increase led to unexpected stability problems. According to research findings from NS3.AI, vulnerabilities are already evident: blocks with high Blob volumes are significantly more prone to failures, which in turn place a direct strain on the entire network. The data suggest that the infrastructure is not yet fully prepared for the increased load.
Multiple Research Teams Confirm Critical Issues
Independent studies by MigaLabs and PandaOps provide additional insights into the technical deficiencies. Their analysis has revealed that validators contribute to additional failures through their timing strategies during block production. Surprisingly, current metrics show that the average Blob numbers have already decreased again—an indication that the network is automatically returning to a more stable state, but susceptibility during peak load periods remains problematic.
Planned Optimizations Before Further Capacity Increases
Ethereum developers are responding to these findings with a cautious approach. Instead of immediately further increasing Blob capacity, they are considering a small interim update. This update aims to optimize the efficiency of data dissemination processes and improve the system’s robustness against peak load scenarios. Only after successful stabilization and improvement of these core mechanisms will the developers consider further increases in Blob data volumes.