IoTeX vs opBNB Scalability
Real-time TPS
IoTeX TPS is 94.87% lower than opBNB TPS
Max TPS (100 blocks)
IoTeX max TPS is 1.51X higher than opBNB max TPS
Max Theoretical TPS
IoTeX max theoretical TPS is 57.99% lower than opBNB max theoretical TPS
Transaction Volume
IoTeX transaction volume is 94.87% lower than opBNB transaction volume
Block Time
IoTeX block time is 5X longer than opBNB block time
Finality
IoTeX finality is 100% shorter than opBNB finality
Type
IoTeX is a layer 1 blockchain, while opBNB is a layer 2 blockchain
Launch Date
IoTeX was launched 4 years before opBNB
IoTeX vs opBNB Decentralization New
Nakamoto Coefficient
IoTeX Nakamoto Coefficient is 9X higher than opBNB Nakamoto Coefficient
Validators
IoTeX has 72X more validators than opBNB
Stake
IoTeX stake is $123.8M, while opBNB has no data
Consensus Mechanism
IoTeX is PoS, while opBNB is Rollup (Optimistic)
Governance
IoTeX on-chain governance is better than opBNB off-chain governance
IoTeX vs opBNB Real-Time TPS Chart
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Other Comparisons
IoTeX Comparisons
opBNB Comparisons
About Blockchains
About IoTeX
IoTeX is a blockchain platform designed specifically for the Internet of Things (IoT) industry. It aims to address the scalability, privacy, and security challenges associated with connecting billions of devices to the internet. IoTeX utilizes a unique architecture that combines blockchain, decentralized identity, and secure hardware to create a trusted and privacy-centric infrastructure for IoT applications. It offers lightweight and efficient consensus mechanisms, support for trusted computing environments, and privacy-preserving techniques such as zero-knowledge proofs.
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.