Collaborative proving involves multiple independent parties cooperating to generate a single cryptographic proof for a shared computation or statement. This method distributes the computational burden of proof generation among participants. It enhances efficiency and reduces individual resource requirements for complex cryptographic operations. This approach is valuable for scaling decentralized systems.
Context
Collaborative proving finds significant application in scaling solutions for blockchains, particularly within rollup technologies where numerous transactions are batched and proven together. This approach can substantially lower transaction costs and increase network throughput. Such advancements address fundamental scalability limitations faced by many decentralized networks, supporting broader adoption of digital assets and enhancing their practical use.
This research introduces Collaborative zk-SNARKs, a cryptographic primitive allowing distributed parties to prove a statement about their collective secret data without centralization, achieving near-single-prover efficiency.
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