At the forefront of opBNB‘s design philosophy is a commitment to high performance and affordability. The roadmap targets scalability, transaction efficiency, and network responsiveness, aiming for an impressive 10,000 transactions per second (TPS) while reducing transaction costs by 10 times.
opBNB introduces the AppChain architecture, strategically deploying multiple application-specific Layer 2 solutions. This framework enhances connectivity, providing a robust infrastructure for the growing landscape of decentralized applications (dApps).
Community Collaboration
The opBNB community stands as a vital element, actively contributing to the platform’s development, governance, and overall growth. The roadmap underscores the importance of a vibrant and engaged community as the driving force behind opBNB’s success.
For opBNB, our community is the driving force. We actively welcome further contributions!
Check out our full roadmap for all the details and explore opBNB’s wishlist below.https://t.co/7iansBaRj8
— BNB Chain (@BNBCHAIN) November 29, 2023
opBNB is set to double its capacity from 100M/second to 200M/second, positioning itself as the highest-capacity Layer 2 (L2) solution. This heightened capacity supports on-chain games and high-frequency DeFi transactions at an impressive rate of 10,000 TPS.
Cost Efficiency – 10X Cost Reduction
opBNB’s Data Availability layer design, implemented on BNB Smart Chain (BSC) through EIP4844 and BNB Greenfield, aims for a remarkable 10x reduction in transaction costs compared to current levels. This innovative approach improves efficiency and reduces overall expenses.
Committing to security, opBNB adopts Multiple Proof (Fraud proof or Zk proof) in the OP Stack solution, advancing to Stage 1 rollup on BSC. Diverse node types, including Archive node, Full node, and Fast node, cater to varied user and application needs.
opBNB establishes an AppChain architecture for deploying application-specific Layer 2 solutions, fostering a cohesive ecosystem with shared governance and communication layers.