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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Renowned quantum computing researcher Dolev Bluvstein joins Project Eleven as an advisor to help bridge breakthroughs in neutral-atom quantum systems with real-world post-quantum cryptography and blockchain security.
Blockchain pioneer and Chainalysis founder Michael Gronager joins Project Eleven as an advisor, bringing deep expertise in crypto infrastructure, regulation, and quantum-ready security for digital assets.
A real-world benchmark of ML-DSA vs Ed25519 on an M1 MacBook reveals unexpected performance bottlenecks, from decoding overhead to missing hardware acceleration, highlighting why post-quantum migrations require full-system testing.
ML-DSA-B is a high-performance variant of the NIST-standard ML-DSA that replaces SHAKE with BLAKE3, delivering faster signing and verification while preserving post-quantum security.
When will quantum computers break encryption? Tracking qubit progress, post-quantum tradeoffs, and how blockchains can prepare before Q-Day.
A foundational guide to quantum computing, explaining superposition, entanglement, interference, and why these principles could reshape cryptography and define the timeline to Q-Day.
What does quantum readiness mean for crypto today—and how are regulators, developers, and new quantum breakthroughs shaping blockchain security?
A simple, real-world explanation of quantum computing, including how qubits, superposition, and interference work and why this new paradigm could outperform classical computers and reshape industries like AI, cryptography, and finance.
