Although zero-knowledge proof technology is powerful, its development threshold is extremely high, often requiring developers to master profound cryptographic knowledge and complex circuit programming languages, which greatly hinders its large-scale application. A core strategic decision of the Lagrange ZK co-processor is to thoroughly break this barrier by supporting SQL syntax familiar to developers.
By providing an SQL interface, Lagrange abstracts the complex data structures of blockchain at the underlying level into a logical structure similar to that of traditional high-performance databases. Developers do not need to become cryptography experts; they can simply write simple SQL queries to harness the powerful capabilities of verifiable computation to analyze vast amounts of on-chain historical data. This bridge significantly lowers the threshold for Web2 developers to enter the Web3 and ZK fields.
The strategic significance of this decision far exceeds the technology itself, as it will greatly accelerate the application landing of the ecosystem and the growth of the developer community. By optimizing the developer experience to the greatest extent, Lagrange is paving the way for verifiable computing technology to become mainstream, with the potential to attract millions of traditional developers into this emerging field.
