USC Researchers Demonstrate Experimental Quantum Speedup with Simon’s Problem For decades, scientists have debated whether quantum computers can solve certain problems exponentially faster than traditional computers. Recent work at the University of Southern California (USC) of... algorithmic speedup error mitigation hardware research IBM Quantum quantum advantage quantum computing Simon's problem
Hybrid Quantum-Classical Algorithms Set New Benchmarks in Quantum Chemistry Quantum computing is rapidly transforming the way scientists approach complex problems. A breakthrough study has introduced a streamlined workflow that merges quantum and classical computing to model ... computational chemistry error mitigation GPU acceleration hybrid algorithms quantum chemistry quantum computing quantum hardware
Hybrid Quantum-Classical Algorithms: Transforming Molecular Simulations for Drug Discovery and Materials Science Predicting complex chemical reactions has long challenged scientists, especially when speed and accuracy are critical. Recent advances are reshaping this landscape. Researchers have unveiled a hybrid ... drug discovery error mitigation GPU acceleration hybrid algorithms molecular simulation quantum chemistry quantum computing transition metal complexes
Quantum Advantage: Are We Entering a New Computational Era? The world of quantum computing is witnessing a pivotal moment as researchers edge closer to achieving quantum advantage. Recent credible claims suggest that quantum computers can now outperform classi... computational science error mitigation IBM Quantum optimization quantum advantage quantum computing quantum hardware variational algorithms
A Practical Framework for Achieving Quantum Advantage: Insights from IBM and Pasqal Quantum computing has captivated scientists and technologists for decades, but the field has often struggled to move from bold promises to concrete results. A new framework from IBM Quantum and Pasqal... classical computing error mitigation hybrid computing quantum advantage quantum computing quantum hardware scientific verification variational algorithms