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A new quantum-inspired algorithm has cracked a problem so massive that conventional supercomputers struggle to even approach it. Researchers used the method to simulate extraordinarily complex quantum materials known as quasicrystals, opening the door to powerful new quantum devices and ultra-efficient electronics. The work could help scientists design advanced topological qubits and materials for future quantum computers.
Read full articleInsider Brief An autonomous quantum materials research system has taken a step toward turning AI from a digital assistant into a physical laboratory scientist by autonomously creating graphene and fabricating atomically thin transistors inside a robotic mini-lab, according to a new study from researchers at Princeton University and collaborators. The system, described in a paper […]
A new study by Glassnode is putting fresh focus on a security risk for the wider Bitcoin (BTC) ecosystem—one that relates not to today’s cryptography, but to what could happen if quantum computers become powerful enough to run the right algorithms. According to the research, 6.04 million Bitcoin, or 30.2% of the issued supply, is […]
A full audit of the XRP Ledger’s validators, custody systems, wallets, and networking layers is now underway, led by quantum security firm Project Eleven in collaboration with Ripple. The review is part of a broader push to prepare the XRP Ledger ecosystem for a future where quantum computers could threaten the cryptographic systems that blockchains currently rely on. Related Reading: XRP Will Go ‘Higher, Much Higher,’ Analyst Says, Betting On Explosive Breakout Project Eleven’s Scope Goes Beyond Research Project Eleven described the collaboration as one of the first major efforts in the industry to move post-quantum blockchain security out of the theoretical stage and into real-world deployment. The firm said the work will produce actual code, real-world performance testing, and a roadmap toward production. Plans also include building hybrid signature systems that combine current cryptographic standards with quantum-resistant protections, along with a prototype quantum-secure custody
Q-Day warnings renew crypto security fears as Solana and NEAR test post-quantum tools before quantum computers threaten encryption systems.
Quantum Motion raised $160M to scale silicon CMOS quantum computers for standard data centers, backed by DCVC and Kembara.
MRC (Multipath Reliable Connection) is a new open networking protocol developed by OpenAI in partnership with AMD, Broadcom, Intel, Microsoft, and NVIDIA that improves GPU networking performance and resilience in large-scale AI training clusters by spreading packets across hundreds of paths simultaneously, recovering from network failures in microseconds, and enabling supercomputers with over 100,000 GPUs to be built using only two tiers of Ethernet switches. The post OpenAI Introduces MRC (Multipath Reliable Connection): A New Open Networking Protocol for Large-Scale AI Supercomputer Training Clusters appeared first on MarkTechPost.
NVIDIA has released Ising, its first open-source AI models built to solve quantum computing’s biggest bottlenecks: calibration and error correction. By acting as the control plane for quantum machines, Ising cuts calibration time from days to hours and delivers up to 2.5× faster, 3× more accurate error correction.
Quantum computers remain limited by noise, instability, and the challenge of error correction in real time. Nvidia’s latest answer is Ising, a new open model family introduced Tuesday that is designed […] The post Nvidia Launches Ising Open Models for Quantum Calibration and Error Correction appeared first on AIwire.
