Arbitrum vs Integritee Scalability
Real-time TPS
Arbitrum TPS is 327X higher than Integritee TPS
Max TPS (100 blocks)
Arbitrum max TPS is 94X higher than Integritee max TPS
Max Theoretical TPS
Arbitrum max theoretical TPS is 27X higher than Integritee max theoretical TPS
Transaction Volume
Arbitrum transaction volume is 327X higher than Integritee transaction volume
Block Time
Arbitrum block time is 98.04% shorter than Integritee block time
Finality
Arbitrum finality is 28X longer than Integritee finality
Type
Arbitrum is a layer 2 blockchain, while Integritee is a parachain
Launch Date
Arbitrum was launched 7 months before Integritee
Arbitrum vs Integritee Decentralization New
Nakamoto Coefficient
Arbitrum Nakamoto Coefficient is 99.64% lower than Integritee Nakamoto Coefficient
Validators
Arbitrum has 99.9% fewer validators than Integritee
Stake
Arbitrum has no data, while Integritee stake is $115.2M
Consensus Mechanism
Arbitrum is Rollup (Optimistic), while Integritee is Nominated Proof of Stake
Governance
Arbitrum and Integritee governance are both on-chain
Arbitrum vs Integritee Real-Time TPS Chart
Loading Data
Other Comparisons
Arbitrum Comparisons
About Blockchains
About Arbitrum
Arbitrum serves as a Layer 2 scaling solution for Ethereum, leveraging rollups to significantly boost scalability and reduce transaction costs while maintaining robust security. It enables developers to execute EVM-compatible smart contracts with a substantially higher transaction throughput and lower fees compared to Ethereum's main chain, making it a compelling platform for decentralized application development.
About Integritee
Integritee is a blockchain project focused on providing privacy-preserving solutions for dApps and smart contracts. It aims to enable confidential computing on public blockchains, allowing sensitive data to be processed securely without compromising privacy. Integritee utilizes trusted execution environments (TEEs), such as Intel SGX, to create secure enclaves where data can be processed confidentially. This ensures that data remains encrypted and inaccessible to anyone, including the network validators or operators, while it is being processed. This idea opens up new possibilities for privacy-focused applications in finance, healthcare, and so on.