Insights from industry leaders on quantum progress, security research, and digital assets.
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NIST has advanced nine post-quantum digital signature schemes to Round 3 of its Additional Digital Signatures process, highlighting emerging alternatives to ML-DSA and SLH-DSA for blockchain, cryptography, and quantum-resistant infrastructure. The candidates span lattice, isogeny, MPCitH, and multivariate cryptography, with implications for Bitcoin, Ethereum, and post-quantum security systems.
Project Eleven open-sources libqc and quantum-vault, audited reference implementations for post-quantum crypto migration, ERC-4337 account abstraction, Bitcoin vault security, and crypto-agile wallet infrastructure designed for a quantum-safe future.
What Is Q-Day and Why Quantum Computing Is a Real Threat to Blockchain Security
A realistic scenario analysis of how a cryptographically relevant quantum computer could silently target exposed Bitcoin keys, disrupt trust in decentralized networks, and make post-Q-Day migration chaotic.
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What is post-quantum cryptography and why does it matter now? NIST standards, new PQC algorithms, and the future of encryption.
Learn how Shor’s algorithm transforms the discrete log problem into a solvable quantum task—putting Bitcoin, TLS, and modern cryptography at risk.
Google, Microsoft, and Amazon race toward fault-tolerant quantum computing—and what their breakthroughs mean for RSA, cryptography, and the timeline to Q-Day.
A step-by-step guide to RSA encryption, covering the math, key generation, encryption process, and why prime factorization makes RSA secure.
A foundational briefing on quantum computing risk, Bitcoin security, and why post-quantum cryptography is the next critical shift in digital trust.
Quantum computers could break the public-key cryptography securing the internet, crypto, messaging, and digital identity. Here’s what is at risk, why harvest-now-decrypt-later matters, and why migration to post-quantum cryptography must start now.
