Speed is a key focus in the world of EVM-compatible blockchains. While many networks highlight high transactions per second (TPS), the underlying architecture often determines real-world usability and long-term adoption. Developers and investors are increasingly aware that throughput alone does not guarantee composability, liquidity, or ecosystem efficiency.
Some blockchains enhance performance through modular expansion, while others embed efficiency into the base layer. The differences between Avalanche’s subnet model and BlockDAG’s (BDAG) unified DAG-based execution illustrate two distinct approaches, each with trade-offs affecting adoption and functionality.
Avalanche’s Modular Scaling Model
Avalanche has positioned itself as a leader in fast EVM chains by using subnets—isolated blockchain environments allowing customized virtual machines (VMs), consensus mechanisms, and execution logic. Each subnet can achieve high TPS, and Avalanche highlights these numbers as a measure of speed.
However, modularity introduces complexity. Subnets function independently and only interact when explicitly bridged, potentially creating fragmentation that complicates data flow and liquidity across the network. While Avalanche’s approach provides flexibility and high TPS in isolated environments, questions remain about long-term composability and user experience.
BlockDAG’s Unified EVM Throughput
BlockDAG takes a different approach by embedding speed directly into its base layer. Powered by a Directed Acyclic Graph (DAG) architecture, transactions are processed in parallel with a single, unified global state. This enables high throughput without requiring modular subnets or additional layers.
BlockDAG claims over 1,400 TPS at Layer 1 while maintaining Ethereum compatibility. Developers can deploy standard Solidity contracts without fragmentation or external dependencies. The presale, with tokens priced at $0.003, has raised over $442 million and closes on January 26, highlighting strong community and developer interest.
Modular Speed vs. Unified Throughput
The comparison between Avalanche and BlockDAG is not just about raw TPS but also how scalability is implemented. Avalanche’s modular design works well for certain enterprise use cases but introduces additional complexity for developers and users. BlockDAG offers a single, composable platform that simplifies EVM deployment while supporting high-speed transactions.
Its dual consensus mechanism, combining Proof of Work (PoW) for security with DAG concurrency benefits, ensures scalability without compromising decentralization—a common challenge for many Layer 1 blockchains.
BlockDAG and the Future of Fast EVM Chains
While Avalanche demonstrates the potential of modular expansion, its approach may create friction for liquidity and developer activity. BlockDAG, by embedding throughput directly into the base layer, provides a unified environment that supports DeFi, gaming, and other high-performance applications.
With the presale ending January 26, BlockDAG is positioning itself as a scalable, EVM-compatible Layer 1 blockchain. Developers and participants may find its architecture and integrated performance an attractive alternative to modular networks in the fast-EVM space.
Presale: https://purchase.blockdag.network
Website: https://blockdag.network
Telegram: https://t.me/blockDAGnetworkOfficial
Discord: https://discord.gg/Q7BxghMVyu
This article contains information about a cryptocurrency presale. Crypto Economy is not associated with the project. As with any initiative within the crypto ecosystem, we encourage users to do their own research before participating, carefully considering both the potential and the risks involved. This content is for informational purposes only and does not constitute investment advice.
