BNB Greenfield vs Algorand Scalability
Real-time TPS
BNB Greenfield TPS is 97.91% lower than Algorand TPS
Max TPS (100 blocks)
BNB Greenfield max TPS is 99.21% lower than Algorand max TPS
Max Theoretical TPS
BNB Greenfield max theoretical TPS is 94.67% lower than Algorand max theoretical TPS
Transaction Volume
BNB Greenfield transaction volume is 97.91% lower than Algorand transaction volume
Block Time
BNB Greenfield block time is 11.85% shorter than Algorand block time
Finality
BNB Greenfield finality is the same as Algorand finality
Type
BNB Greenfield and Algorand are both layer 1 blockchains
Launch Date
BNB Greenfield was launched 4 years after Algorand
BNB Greenfield vs Algorand Decentralization New
Nakamoto Coefficient
BNB Greenfield Nakamoto Coefficient is 66.66% lower than Algorand Nakamoto Coefficient
Validators
BNB Greenfield has 99.42% fewer validators than Algorand
Stake
BNB Greenfield stake is 11K BNB, while Algorand stake is 1.929B ALGO
Consensus Mechanism
BNB Greenfield is PoS, while Algorand is Pure Proof of Stake
Governance
BNB Greenfield and Algorand governance are both on-chain
BNB Greenfield vs Algorand Real-Time TPS Chart
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Other Comparisons
BNB Greenfield Comparisons
About Blockchains
About BNB Greenfield
Positioned as the third blockchain within the BNB Chain ecosystem BNB Greenfield utilizes BNB as its native token. In essence, BNB Greenfield aims to offer decentralized storage infrastructure within the expansive BNB Chain ecosystem. This empowers users and dApps to generate, store, and exchange data while retaining full ownership. The potential outcome is the emergence of a new data-centric economy, enabling all participants within the BNB Chain ecosystem to possess, utilize, and monetize data.
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.