Definition ∞ Quantum-Secure Protocols are cryptographic methods specifically designed to resist attacks from quantum computers, which possess the computational power to break many current encryption standards. These protocols employ mathematical problems that are believed to remain intractable even for advanced quantum algorithms. Their development is a proactive measure to safeguard digital communications and assets against future threats posed by quantum computing advancements. The goal is to establish long-term cryptographic resilience for digital systems.
Context ∞ The key discussion surrounding quantum-secure protocols involves the urgent need for their research and deployment to protect digital assets and blockchain infrastructure from anticipated quantum threats. Its situation highlights a critical security challenge as quantum computing capabilities continue to progress, potentially rendering existing cryptographic foundations vulnerable. A critical future development involves the standardization and widespread adoption of these new cryptographic primitives across the digital asset ecosystem to ensure enduring security for all transactions and data.
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