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- Ethereum vs Robonomics
Ethereum vs Robonomics Scalability
Real-time TPS
Ethereum TPS is 16.27 tx/s, while Robonomics has no data
Max TPS (100 blocks)
Ethereum max TPS is 62.34 tx/s, while Robonomics has no data
Max Theoretical TPS
Ethereum max theoretical TPS is 119.1 tx/s, while Robonomics has no data
Transaction Volume
Ethereum transaction volume is 58,563 txns, while Robonomics has no data
Block Time
Ethereum block time is 12.04s, while Robonomics has no data
Finality
Ethereum finality is 12m 48s, while Robonomics has no data
Type
Ethereum is a layer 1 blockchain, while Robonomics has no data
Launch Date
Ethereum was launched on Jul 30, 2015, while the Robonomics has no data
Ethereum vs Robonomics Decentralization New
Nakamoto Coefficient
Ethereum Nakamoto Coefficient is 2, while Robonomics has no data
Validators/Miners
Ethereum has 1,082,000 validators, while Robonomics has no data
Stake/Hashrate
Ethereum stake is $151.8B, while Robonomics has no data
Consensus Mechanism
Ethereum is PoS, while Robonomics has no data
Governance
Ethereum governance is off-chain, while Robonomics has no data
Other Comparisons
Ethereum Comparisons
About Blockchains
About Ethereum
Ethereum emerges as a decentralized, open-source blockchain platform empowering developers to craft and deploy smart contracts alongside dApps. Pioneering the smart contract concept, Ethereum enables self-executing agreements with terms directly encoded into its blockchain, eliminating the need for intermediaries. Additionally, Ethereum serves as a hub for the creation and exchange of NFTs (Non-Fungible Tokens) and various digital assets. Its intrinsic cryptocurrency, Ether (ETH), facilitates network transactions and incentivizes miners to uphold network security. Ethereum's evolution to Ethereum 2.0 introduces a proof-of-stake (PoS) mechanism, aiming to enhance scalability and energy efficiency.
About Robonomics
The creation and development of a platform that provides tools for working with the robot economy network (briefly - the Robonomics platform) will allow designers of new cities and industrial zones to build trust among the autonomous robots services, provide direct user access for ordering products from autonomous factories and services of urban sensor networks. This in turn will allow us to put in place a decentralized system that globally monitors the activities of cyber physical systems.