Real-time TPS
eCash TPS is 99.86% less than Algorand TPS
Max TPS (100 blocks)
eCash max TPS is 99.45% less than Algorand max TPS
Max Theoretical TPS
eCash max theoretical TPS is 99.44% less than Algorand max theoretical TPS
Transaction Volume
eCash transaction volume is 99.86% less than Algorand transaction volume
Block Time
eCash block time is 156X more than Algorand block time
Finality
eCash finality is 100% more than Algorand finality
Nakamoto Coefficient
eCash and Algorand nakamoto coefficient are both coming soon
Active Addresses
eCash and Algorand active addresses are both coming soon
Governance
eCash council governance is worse than Algorand on-chain governance
Type
eCash and Algorand are both layer 1 blockchains
Launch Date
eCash was launched 1 year after Algorand
eCash vs Algorand Real-Time TPS Chart
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Other Comparisons
eCash Comparisons
About Blockchains
About eCash
eCash is a blockchain project led by Bitcoin ABC, aiming to enhance L1 scalability, security, transaction speed, and cost-effectiveness. It integrates the Avalanche consensus protocol with its base PoW consensus, making it effectively a hybrid consensus network that is secured against 51% attacks and extensible via subnets and hard-fork free upgrades. These improvements address scalability concerns, enable rapid transaction finality, interoperability, and guarantee subcent fees. Despite these improvements, eCash remains committed to maintaining the decentralization principles of the original Bitcoin protocol. By prioritizing scalability and extensibility, eCash seeks to realize the vision of Bitcoin as a practical and accessible peer-to-peer electronic cash system.
About Algorand
Algorand emerges as a blockchain platform committed to fostering transparency and enabling the growth of decentralized projects and applications. Operating as a public, decentralized blockchain, it leverages a Pure Proof-of-Stake (PPoS) consensus mechanism to uphold network security, efficiency, and decentralization. Powered by the Algorand Consensus Algorithm, the network employs a combination of cryptographic techniques and random selection to attain consensus, effectively addressing the constraints of traditional consensus mechanisms.