Real-time TPS
Gravity Alpha Mainnet TPS is 30.36% less than Algorand TPS
Max TPS (100 blocks)
Gravity Alpha Mainnet max TPS is 91.03% less than Algorand max TPS
Max Theoretical TPS
Gravity Alpha Mainnet max theoretical TPS is 51.49% less than Algorand max theoretical TPS
Transaction Volume
Gravity Alpha Mainnet transaction volume is 30.36% less than Algorand transaction volume
Block Time
Gravity Alpha Mainnet block time is 89.25% less than Algorand block time
Finality
Gravity Alpha Mainnet finality is the same as Algorand finality
Nakamoto Coefficient
Gravity Alpha Mainnet and Algorand nakamoto coefficient are both coming soon
Active Addresses
Gravity Alpha Mainnet and Algorand active addresses are both coming soon
Governance
Gravity Alpha Mainnet and Algorand governance are both coming soon
Type
Gravity Alpha Mainnet is a layer 2 blockchain, while Algorand is a layer 1 blockchain
Launch Date
Gravity Alpha Mainnet was launched 5 years after Algorand
Gravity Alpha Mainnet vs Algorand Real-Time TPS Chart
Loading Data
Other Comparisons
Gravity Alpha Mainnet Comparisons
- Gravity Alpha Mainnet vs Ethereum
- Gravity Alpha Mainnet vs Bitcoin
- Gravity Alpha Mainnet vs BNB Chain
- Gravity Alpha Mainnet vs Solana
- Gravity Alpha Mainnet vs Cardano
- Gravity Alpha Mainnet vs Avalanche
- Gravity Alpha Mainnet vs Polkadot Ecosystem
- Gravity Alpha Mainnet vs Polygon
- Gravity Alpha Mainnet vs Fantom
- Gravity Alpha Mainnet vs Arbitrum
About Blockchains
About Gravity Alpha Mainnet
Gravity is a high-performance Layer 1 blockchain built for mass adoption. Gravity achieves high throughput and low-latency finality with a pipelined AptosBFT consensus engine and Grevm (Gravity EVM), a parallel EVM runtime, while maintaining PoS security through restaking technology.
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.