Research highlights
Examples of EPCC’s internationally recognised research at the leading-edge of HPC.
Strategic Prosperity Partnership with Rolls-Royce
Developing the world’s first simulation of a full gas-turbine.
EPCC is leading this ambitious and challenging programme of research funded by EPSRC and Rolls-Royce, in partnership with the University of Cambridge, the University of Oxford, the University of Warwick and the University of Bristol.
By 2030, the goal is to work towards the “virtual certification” of aircraft engines by modelling gas turbines in operation. This requires a unique combination of fundamental engineering and computational science research to address a challenge that is well beyond the capabilities of today’s state of the art.
Software collaborations with the UK Met Office
High resolution modelling of local atmospheric conditions to deliver high accuracy weather forecasts.
EPCC worked with the Met Office and the Natural Environment Research Council (NERC) to redevelop the LEM model to enable a step change in capability. We ensured the code for the Met Office’s new atmospheric model—MONC—would run on large HPC machines and provide significant efficiency.
The model is now routinely used across the UK and wider world, with domains of up to 2.1 billion grid points having been modelled on over 32,768 cores of ARCHER (the UK’s previous national supercomputer service). There have been numerous scientific discoveries made with MONC that would have been untenable with previous-generation models.
Exascale research
Exploring the application and impact of the world’s fastest and most powerful computers.
ExCALIBUR programme
The ExCALIBUR programme is a £45.7M initiative from the UK government’s Strategic Priorities Fund (SPF) led by the Met Office, UK Research and Innovation (UKRI) with the UK Atomic Energy Authority (UKAEA).
The aim is to prepare high priority applications for Exascale and progress cross-cutting domains such as algorithm design to maintain a leading position for the UK in high performance computing. Work is focussed on issues of strategic importance such as drug and vaccine research, climate and weather prediction, and fusion power and green energy sources.
EPCC is leading or co-leading the following ExCALIBUR collaborations:
- The Materials and Molecular Modelling Exascale Design and Development Working Group
- ELEMENT: the Exascale Mesh Network
- EXALAT: Lattice Field Theory at the Exascale Frontier
EXCELLERAT Centre of Excellence
As a partner in EXCELLERAT, EPCC has been collaborating with organisations throughout Europe to provide expertise on how HPC can benefit engineering challenges. The aim is to use Exascale computing to tackle highly complex and costly engineering problems, allowing businesses to deliver faster results and save more money.
Exploring hardware architectures
Researching future Exascale hardware to accelerate scientific discovery and lead to better and faster understanding of complex systems.