opBNB vs Crust Scalability
Real-time TPS
opBNB TPS is 100% higher than Crust TPS
Max TPS (100 blocks)
opBNB max TPS is 9,616X higher than Crust max TPS
Max Theoretical TPS
opBNB max theoretical TPS is 3.17X higher than Crust max theoretical TPS
Transaction Volume
opBNB transaction volume is 100% higher than Crust transaction volume
Block Time
opBNB block time is 96.69% shorter than Crust block time
Finality
opBNB finality is 2.07X longer than Crust finality
Type
opBNB is a layer 2 blockchain, while Crust is a parachain
Launch Date
opBNB was launched 9 months after Crust
opBNB vs Crust Decentralization New
Nakamoto Coefficient
opBNB Nakamoto Coefficient is 99.42% lower than Crust Nakamoto Coefficient
Validators
opBNB has 99.83% fewer validators than Crust
Stake
opBNB has no data, while Crust stake is $2.947B
Consensus Mechanism
opBNB is Rollup (Optimistic), while Crust is Nominated Proof of Stake
Governance
opBNB off-chain governance is worse than Crust on-chain governance
opBNB vs Crust Real-Time TPS Chart
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Other Comparisons
opBNB Comparisons
About Blockchains
About opBNB
opBNB is an optimistic rollup network designed to enhance the scalability of the Binance Smart Chain (BSC). It aims to take the workload away from the mainnet and improve network performance. The opBNB network employs a unique approach to ensure transaction integrity and security. It leverages the main network (BSC) for final transaction validation on its execution layer, facilitated by a verifier mechanism, striving to achieve high throughput while maintaining security.
About Crust
Crust is a decentralized storage network built on Polkadot, a multi-chain blockchain platform. It aims to provide a decentralized storage solution that is secure, reliable, and cost-effective. Crust allows users to store and retrieve data in a web3 manner, leveraging the power of blockchain technology to ensure data integrity and availability. Crust uses a combination of blockchain and decentralized storage technologies to achieve its goals. It offers incentives for users to contribute their storage space to the network, creating a distributed storage infrastructure that is resistant to censorship and single points of failure.