We have been trying to build a global financial network the wrong way for an entire decade.

Imagine forcing a single computer server to simultaneously execute every user's command, verify the underlying security of the entire system, and store every piece of historical data permanently. That is exactly how monolithic blockchains operate. When a network is forced to do everything at once, it inevitably chokes under pressure, leading to astronomical fees and inevitable congestion.

Modular Blockchain architecture is the elegant solution to this scaling nightmare.

Instead of cramming every function into a single layer, modularity splits the blockchain stack into highly specialized components. We now have dedicated execution layers processing the transactions at lightning speed, while separate Data Availability (DA) networks act as massive, decentralized hard drives securing the transaction data. By decoupling execution from data storage, developers can launch high-performance, application-specific rollups that process thousands of transactions per second for fractions of a cent, all while inheriting the security of a robust base layer.

We are watching the entire industry migrate from clunky, congested monolithic chains to an interconnected web of highly specialized, modular rollups. The protocols providing the foundational DA and settlement layers for this modular stack are effectively becoming the invisible bedrock for the next generation of Web3.

What is the single biggest security vulnerability of a highly fragmented, modular ecosystem compared to a unified monolithic chain?

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