Scroll vs Avalanche Scalability
Real-time TPS
Scroll TPS is 96.7% lower than Avalanche TPS
Max TPS (100 blocks)
Scroll max TPS is 1.03X higher than Avalanche max TPS
Max Theoretical TPS
Scroll max theoretical TPS is 88.57% lower than Avalanche max theoretical TPS
Transaction Volume
Scroll transaction volume is 96.7% lower than Avalanche transaction volume
Block Time
Scroll block time is 16.54% shorter than Avalanche block time
Finality
Scroll finality is 5,784X longer than Avalanche finality
Type
Scroll is a layer 2 blockchain, while Avalanche is a layer 1 blockchain
Launch Date
Scroll was launched 3 years after Avalanche
Scroll vs Avalanche Decentralization New
Nakamoto Coefficient
Scroll Nakamoto Coefficient is 96.55% lower than Avalanche Nakamoto Coefficient
Validators
Scroll has 99.89% fewer validators than Avalanche
Stake
Scroll has no data, while Avalanche stake is $5.206B
Consensus Mechanism
Scroll is Rollup (ZK), while Avalanche is PoS
Governance
Scroll multisig governance is worse than Avalanche on-chain governance
Scroll vs Avalanche Real-Time TPS Chart
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Other Comparisons
Scroll Comparisons
About Blockchains
About Scroll
Scroll, a Layer 2 Ethereum network, aims to simplify scaling solutions for projects utilizing the Ethereum Virtual Machine (EVM). Its primary mechanism, zkEVM, integrates zero-knowledge proofs with the EVM, enabling rapid Ethereum transaction confirmation without the need to store and transfer additional transaction data. Scroll aims to establish a universal network that grants developers a user experience and security level akin to Ethereum while surpassing Ethereum in throughput, verification speed, and gas fee affordability
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.