IBM’s Quantum Leap: Delivering Fault-Tolerant Quantum Computing by 2029 The global competition to create practical quantum computers is intensifying, and IBM has emerged as a clear frontrunner with a detailed roadmap and aggressive targets. By 2029, the company plans to l... fault tolerance hardware innovation IBM Poughkeepsie quantum computing quantum error correction quantum roadmap quantum software
Oxford’s Record-Breaking Qubit Precision: Precision Beyond Lightning Odds Quantum computing just reached a new level of accuracy , thanks to groundbreaking work by University of Oxford researchers. Their achievement, a qubit with an error rate of only one in 6.7 million ope... error rates ion trap microwave control quantum computing quantum technology qubits University of Oxford
Japan Emerges as a Global Leader with IBM Quantum System Two and Fugaku Integration Japan has made a bold move in the world of technology by launching the first IBM Quantum System Two outside the United States. At the RIKEN Center for Computational Science in Kobe, this groundbreakin... Fugaku hybrid computing IBM Japan quantum computing RIKEN scientific research supercomputing
Microsoft’s Four-Dimensional Codes Propel Quantum Computing Forward Quantum computers promise to solve problems that are out of reach for classical machines, but their practical use has long been limited by error rates. Microsoft’s groundbreaking work with four-dimens... Atom Computing error correction four-dimensional codes logical qubits Microsoft Quantum neutral atoms quantum computing
Inside IBM's Blueprint for Large-Scale Fault-Tolerant Quantum Computing IBM is on a quest to build the world’s first large-scale, fault-tolerant quantum computer by 2029. This technological leap isn’t just about raw speed, it's about achieving reliable quantum computation... error correction fault tolerance IBM modular architecture Qiskit quantum advantage quantum computing quantum roadmap
Future-Proofing Digital Security: AWS KMS Adopts ML-DSA for Post-Quantum Signatures Quantum computing is no longer a distant threat, it’s rapidly reshaping the cybersecurity landscape. As quantum capabilities grow, organizations must prepare for new vulnerabilities that could comprom... AWS KMS cryptography digital signatures FIPS 204 ML-DSA post-quantum quantum computing security
How NVIDIA, AWS, IonQ and AstraZeneca Are Using Quantum Computing to Revolutionize Drug Discovery Drug discovery has long been defined by painstaking research and drawn-out timelines. Now, a partnership between IonQ , AstraZeneca , AWS , and NVIDIA is reimagining what’s possible in pharmaceutical ... AWS computational chemistry drug development hybrid workflows IonQ NVIDIA pharmaceuticals quantum computing
Doudna Supercomputer: Revolutionizing Science with Dell and NVIDIA Imagine unlocking scientific insights in weeks that once took years. That’s the promise behind the U.S. Department of Energy’s latest investment in high-performance computing: a next-generation superc... AI research Dell Technologies DOE HPC NVIDIA quantum computing scientific discovery supercomputing
Quantum Computers Surpass Supercomputers in Material Simulation What if a computer could solve problems that stump even the world’s most advanced supercomputers? That’s now a reality. Recent research has shown that a quantum computer has outperformed a classical s... D-Wave Frontier supercomputer material science ORNL quantum computing scientific breakthrough simulation supercomputing
Atomic-Scale Discoveries Are Shaping the Future of Quantum Computing Quantum computing’s progress hinges on mastering the smallest details. Recent research from Brookhaven National Laboratory and Pacific Northwest National Laboratory has revealed a previously unknown i... Brookhaven Lab computational modeling interface engineering materials science nanotechnology quantum computing superconducting qubits
Scalable Chemistry Simulations: Quantum Supercomputing’s Breakthrough Moment Simulating intricate chemical reactions may not be limited by computational power any longer thanks to Quantinuum’s revolutionary, error-corrected, end-to-end computational chemistry workflow. This le... AI integration computational chemistry error correction innovation materials science quantum computing scientific research supercomputing
IBM's $150 Billion Bet on America's Technological Edge: What It Means for the Future IBM is making headlines with a remarkable $150 billion commitment to reshape the United States’ technological future. This significant investment, spread over five years, aims to bolster economic grow... AI American manufacturing economic growth IBM mainframes quantum computing research and development technology investment