Proof system modularity refers to the design principle where different components of a cryptographic proof system can be independently developed, upgraded, or interchanged. This approach allows for greater flexibility and efficiency in building and maintaining complex verifiable computation systems. It promotes reusability and simplifies the integration of new cryptographic primitives.
Context
Proof system modularity is a key focus in the advancement of zero-knowledge proofs and other scaling solutions for blockchains. News often covers new cryptographic libraries or frameworks that highlight their modular design, enabling faster innovation and easier audits. This architectural approach is crucial for building adaptable and future-proof decentralized applications.
Artemis CP-SNARK is a modular construction that eliminates the commitment verification bottleneck in zkML, making large-scale, privacy-preserving AI models practical.
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