Apertum vs Avalanche
Apertum vs Avalanche Scalability
Real-time TPS
Apertum has no data, while Avalanche TPS is 27.34 tx/s
Max TPS (100 blocks)
Apertum has no data, while Avalanche max TPS is 122.7 tx/s
Max Theoretical TPS
Apertum has no data, while Avalanche max theoretical TPS is 1,191 tx/s
Transaction Volume
Apertum has no data, while Avalanche transaction volume is 98,406 txns
Block Time
Apertum has no data, while Avalanche block time is 1.46s
Finality
Apertum has no data, while Avalanche finality is 2s
Type
Apertum has no data, while Avalanche is a layer 1 blockchain
Launch Date
Apertum has no data, while Avalanche was launched on Sep 21, 2020
Apertum vs Avalanche Decentralization New
Nakamoto Coefficient
Apertum has no data, while Avalanche Nakamoto Coefficient is 29
Validators/Miners
Apertum has no data, while Avalanche has 936 validators
Stake/Hashrate
Apertum has no data, while Avalanche stake is $5.206B
Consensus Mechanism
Apertum has no data, while Avalanche is PoS
Governance
Apertum has no data, while Avalanche governance is on-chain
Other Comparisons
Apertum Comparisons
About Blockchains
About Apertum
Apertum distinguishes itself with a unique combination of features designed for modern technology. Unlike Bitcoin's energy-intensive Proof of Work (PoW) and Ethereum's evolving scalability solutions, Apertum operates as a subnet of the Avalanche blockchain, providing high scalability and fast transactions. Its virtual mining protocol eliminates the need for physical hardware, making mining accessible to everyone. Additionally, its deflationary mechanism burns up to 50% of transaction fees, ensuring long-term value growth while maintaining fairness and transparency.
About Avalanche
Avalanche emerges as a rapid, scalable blockchain platform facilitating the seamless creation and deployment of dApps. Distinguished by its unique consensus mechanism, it's particularly good for DeFi applications, allowing high throughput and nearly instant finality. Its architecture allows for a network of interconnected blockchains, each safeguarded by dynamic subsets of validators, ensuring scalability while maintaining speed, reliability, and security.