Updates, milestones, and links shared by EigenQ.
🚀 Invitation: Step Inside EigenQ’s Quantum Lab – Where the Future of Quantum Security Comes to Life ⚛️ \r\n\r\nEigenQ proudly announces the expansion of its Quantum Lab, a state-of-the-art facility showcasing the next generation of quantum-secure computing, communications, and sensing technologies. \r\n\r\nWe’re inviting U.S. Federal government representatives, OEMs, defense partners, and technology integrators to experience firsthand how EigenQ is advancing quantum cybersecurity and infrastructure protection. \r\n \r\n💡 Inside the Quantum Lab, visitors can explore: \r\n• 🧩 PCIe Post-Quantum Unit (PQU) and M.2 PQC Module \r\n• 🎲 Quantum Random Number Generator (QRNG) API Server \r\n• 📡 QHotspot — Quantum Wireless Hotspot \r\n• 🔐 Quantum Site-to-Site VPN and Quantum Encryption Module (QEM) \r\n• 🛡 Quantum-Resistant Video Conferencing and Quantum-Safe File Sharing \r\n• 🌌 Quantum-Enhanced Radar Sensing \r\n• 🧠 The Double Slit Experiment and Michelson’s Interferometer \r\n• ⚙️ HPE Server Room Integrations \r\n \r\n🔭 Join us to see how EigenQ is bridging today’s infrastructure with tomorrow’s quantum era, transforming quantum science into real-world, deployable security solutions.
A Major Step Forward in Quantum Factorization: Researchers unveil a new quantum factoring algorithm that could accelerate the arrival of “Q-day.”\r\nA team of physicists has introduced a new quantum factoring method based on the Quantum Number Theoretic Transform (QNTT), which achieves major resource reductions compared with Shor’s algorithm, cutting gate count, circuit depth, and runtime by factors ranging from roughly 10× to over 1,000× in simulation and hardware tests. The findings, detailed in a new preprint, suggest that large-scale quantum attacks on classical cryptography could arrive much sooner than previously estimated, underscoring the urgent need for coordinated adoption of post-quantum cryptography and responsible disclosure practices.\r\n\r\nThis result suggests that “Q-day”, when quantum computers can break classical encryption, may be closer than previously thought, and it highlights the urgent need for accelerated post-quantum cryptography adoption and coordinated responsible disclosure.\r\n\r\n📄 Read the full preprint here: https://www.preprints.org/frontend/manuscript/63009198e949e24aec54cb63dccf0ee1/download_pub