Scientific Computing World

Are you a scientist or engineer in biotechnology, life sciences, drug discovery, geophysics, CAD, or CFD? High-performance computing (HPC) could transform your research, but challenges like cost, complexity, and expertise gaps often stand in the way. Join our upcoming free webcast to explore how HPC is becoming accessible for research teams of all sizes: 🧬 What You’ll Learn: ➡️Innovative cloud-based HPC solutions that reduce barriers for smaller teams and organisations ➡️User-friendly interfaces and efficient models for seamless HPC access without heavy in-house expertise ➡️Insights on energy-efficient centralised computing models that reduce operational costs and boost performance ➡️Hear from industry experts like Robert Henschel, Project Director at Indiana University Bloomington and HPC Lead at Cendio ThinLinc, as they share practical strategies and real-world experiences in HPC implementation. Discover how democratised HPC is accelerating discoveries across sectors! 🔗 Register Today to reserve your spot – don’t miss out on this opportunity to power your research with HPC. https://lnkd.in/eS9MPFSs #HighPerformanceComputing #HPC #Biotech #LifeSciences #DrugDiscovery #Engineering #CAD #CFD #Research

Creating a roadmap to fault tolerant quantum computing. Quantinuum’s roadmap outlines the path to fully fault-tolerant quantum computing by 2030. Discover the innovations driving scalable quantum architectures and how these developments promise to revolutionise commercial quantum computing. Quantinuum

REVEALED: The Photonics100 2025. Who is in this year's list? The wait is over – we’re excited to present The Photonics100 of 2025, featuring this year’s most influential thinkers and pioneers advancing the photonics industry. Explore the full list to see the names driving innovation, breaking barriers, and redefining possibilities in photonics. #ThePhotonics100 #Photonics

As global research demands grow, the Wellcome Sanger Institute, led by Nathan Cunningham, is pioneering sustainable HPC. Through innovations like liquid-cooled systems and smart energy management, they’re setting new standards for energy-efficient supercomputing. Discover their breakthrough and help us find more visionaries shaping the future of scientific computing. Nominate a leader for our breakthroughs series today!

Explore how Amanda Randles and her team at Duke University are transforming cardiovascular care through high-performance computing, enabling real-time, patient-specific simulations. Discover the future of personalised medicine and join us in recognising innovators in scientific computing! #Breakthroughs #CardiovascularHealth #PersonalisedMedicine #HighPerformanceComputing

Overcome AI and data challenges in pharma R&D. Struggling with data quality in pharmaceutical research? Join Advanced Chemistry Development, Inc., (ACD/Labs) Richard Lee for expert strategies on integrating AI and machine learning to optimise your R&D processes and achieve better outcomes.

Creating a roadmap to fault tolerant quantum computing. Quantinuum’s roadmap outlines the path to fully fault-tolerant quantum computing by 2030. Discover the innovations driving scalable quantum architectures and how these developments promise to revolutionise commercial quantum computing. Quantinuum

Scale quantum computing with modular control systems. Facing scalability issues in quantum development? Learn how modular control systems can unlock the full potential of quantum computing. Access this White Paper for insights on boosting performance and efficiency. nVent

Overcome biomedical challenges with supercomputing power. Discover how Amanda Randles is leveraging supercomputers to tackle complex biomedical issues. Learn how high-performance computing can transform bioinformatics and drive breakthroughs in disease treatment. Duke University

Thanks for sharing, CCDC - The Cambridge Crystallographic Data Centre