Proof update runtime refers to the computational time required to generate or modify a cryptographic proof when the underlying data changes. An efficient proof update runtime means that adjustments to data can be reflected in proofs quickly, without excessive processing delays. This metric is vital for dynamic and responsive verifiable data structures. It directly impacts system responsiveness.
Context
For blockchain systems that rely on constantly evolving data, such as those with frequent state changes or large transaction volumes, optimizing proof update runtime is a key technical challenge. News regarding advancements in cryptographic commitment schemes or stateless client architectures often reports on reductions in this runtime. Faster proof updates directly enhance the responsiveness and scalability of digital asset protocols and applications.
A new vector commitment scheme achieves sublinear complexity for both global update size and local proof updates, solving the stateless client efficiency trade-off.
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