- Compare
- Electroneum vs IoTeX
Electroneum vs IoTeX
Electroneum vs IoTeX Scalability
Real-time TPS
Electroneum has no data, while IoTeX TPS is 1.4 tx/s
Max TPS (100 blocks)
Electroneum has no data, while IoTeX max TPS is 829.7 tx/s
Max Theoretical TPS
Electroneum has no data, while IoTeX max theoretical TPS is 2,000 tx/s
Transaction Volume
Electroneum has no data, while IoTeX transaction volume is 5,039 txns
Block Time
Electroneum has no data, while IoTeX block time is 2.5s
Finality
Electroneum has no data, while IoTeX finality is 0s
Type
Electroneum has no data, while IoTeX is a layer 1 blockchain
Launch Date
Electroneum has no data, while IoTeX was launched on Apr 22, 2019
Electroneum vs IoTeX Decentralization New
Nakamoto Coefficient
Electroneum has no data, while IoTeX Nakamoto Coefficient is 9
Validators/Miners
Electroneum has no data, while IoTeX has 72 validators
Stake/Hashrate
Electroneum has no data, while IoTeX stake is $123.8M
Consensus Mechanism
Electroneum has no data, while IoTeX is PoS
Governance
Electroneum has no data, while IoTeX governance is on-chain
Other Comparisons
Electroneum Comparisons
About Blockchains
About Electroneum
Electroneum is a Layer 1 EVM-compatible blockchain, catering to 4+ million users worldwide. The network boasts transaction speeds of just 5 seconds with instant finality and potentially the lowest smart contract fees available. Powered by the IBFT consensus mechanism and supported by known validators (targeting universities and Web3 infrastructure companies), the network is incredibly fast, secure and energy efficient.
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.