Quasi-optimal efficiency describes a system or algorithm that performs at a level very close to the theoretical maximum possible efficiency. While not perfectly optimal, it offers performance that is practically indistinguishable from the ideal, often due to trade-offs in design or implementation. It represents a high degree of performance. This term indicates a near-ideal operational state. It achieves near-perfect performance.
Context
In the design of blockchain protocols and cryptographic algorithms, achieving quasi-optimal efficiency is a significant engineering objective, particularly concerning transaction throughput and resource consumption. Developers aim for solutions that balance theoretical performance limits with practical implementation constraints and security considerations. This balance is crucial for the widespread adoption of digital assets. This is important for blockchain adoption.
A new lattice-based commitment scheme enables the first quasi-optimal, quantum-resistant SNARKs, making secure, scalable verifiable computation practical.
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