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Reference Number EP/W00755X/1
Title Integrated Simulation at the Exascale: coupling, synthesis and performance
Status Started
Energy Categories ENERGY EFFICIENCY(Transport) 2%;
NUCLEAR FISSION and FUSION(Nuclear Fusion) 2%;
NOT ENERGY RELATED 96%;
Research Types Basic and strategic applied research 100%
Science and Technology Fields PHYSICAL SCIENCES AND MATHEMATICS (Pure Mathematics) 40%;
PHYSICAL SCIENCES AND MATHEMATICS (Computer Science and Informatics) 60%;
UKERC Cross Cutting Characterisation Not Cross-cutting 100%
Principal Investigator Professor GN Wells

Engineering
University of Cambridge
Award Type Standard
Funding Source EPSRC
Start Date 02 August 2021
End Date 01 August 2024
Duration 36 months
Total Grant Value £630,806
Industrial Sectors Information Technologies
Region East of England
Programme SPF EXCALIBUR Programme
 
Investigators Principal Investigator Professor GN Wells , Engineering, University of Cambridge (99.994%)
  Other Investigator Dr G Pullan , Engineering, University of Cambridge (0.001%)
Dr BD Rogers , Mechanical, Aerospace and Civil Engineering, University of Manchester (0.001%)
Dr G Fourtakas , Mechanical, Aerospace and Civil Engineering, University of Manchester (0.001%)
Professor DR (David ) Emerson , CSE/Computational Chemistry Group, STFC (Science & Technology Facilities Council) (0.001%)
Dr CN Richardson , BP Institute, University of Cambridge (0.001%)
Dr SM Longshaw , Scientific Computing Department, STFC (Science & Technology Facilities Council) (0.001%)
  Industrial Collaborator Project Contact , EDF Energy (0.000%)
Project Contact , Airbus UK Ltd (0.000%)
Project Contact , EURATOM/CCFE (0.000%)
Project Contact , Durham University (0.000%)
Project Contact , Lawrence Berkeley National Laboratory (LBNL), USA (0.000%)
Project Contact , Lawrence Livermore National Laboratory (LLNL), USA (0.000%)
Web Site
Objectives
Abstract The arrival in the coming years of exascale computers will not just enable bigger, higher-fidelity and faster computations, but also whole new classes of simulation and modelling. It will open new frontiers in our ability to design, optimise and predict highly complex and coupled engineered and natural systems. System-level simulation of complex problems governed by multiple coupled physical processes will become possible, unlocking opportunities to create new, sophisticated engineered systems, with efficient computer simulations of interacting physical processes having the potential to greatly advance progress in high-priority areas and engineering grand challenges.This project draws together a multidisciplinary team of leading researchers in computational science, high-performance computing, engineering and computational mathematics to create new and necessary mathematical and software tools to make stable, accurate and efficient simulation of integrated systems with coupled physical phenomena possible. It will combine rigorous mathematical analysis with cutting edge software tools to deliver new tools that will open frontiers in computing for science and engineering. The software tools will be open-source, with community building and knowledge exchange a focus throughout.Three grand challenge problems of high social and industrial impact will direct the technical developments in this project:- Coupled simulation of fusion modelling, which will support the virtual design and optimisation of future fusion energy systems for the electricity grid, which will have a transformative on reducing CO2 emissions;- Carbon neutral flight, an in particular new high energy density electric propulsion systems in which the electromagnetic, thermal, mechanical and fluid process are strongly coupled; and- Coupled simulation techniques for computing the behaviour of large virus structures.
Publications (none)
Final Report (none)
Added to Database 08/11/21