E-Infrastructure Connectivity
Lead Research Organisation:
University of Manchester
Department Name: Computer Science
Abstract
The proposal is for funding to establish a high performance computing centre to be shared by the N8 Research Partnership - a consortium of the research-intensive universities in the North of England (Durham, Lancaster, Leeds, Liverpool, Manchester, Newcastle, Sheffield and York). The aim is to underpin world class research in science and engineering, which increasingly makes use of large scale modelling, simulation and scale data analysis, alongside theory and experiment. The new facility will be cost effective, because it will be shared by 8 universities rather than each of the universities having a similar facility, and it will enable much more complex simulations and analyses to be run routinely than is currently possible. As well as underpinning world class research, the facility will be of great interest to industry, and is likely to lead to new research and innovation collaborations between the universities and business.
Planned Impact
The proposed Centre will provide an opportunity for businesses, particularly SMEs, to access HPC facilities of a scale not easily available without significant investment, creating major potential for new research collaboration and knowledge exchange with the research-intensive universities of N8. We will use several mechanisms to enhance the potential impact of the Centre:
1 .Engaging with the local economies of the North of England through strategic alignment with Local Enterprise Partnerships and other agencies;
2. Actively developing new collaborations, particularly through the TSB-funded N8 Industry Innovation Forum;
3. Lowering the barriers to engagement by providing HPC advice, training and free 'taster' access.
1 .Engaging with the local economies of the North of England through strategic alignment with Local Enterprise Partnerships and other agencies;
2. Actively developing new collaborations, particularly through the TSB-funded N8 Industry Innovation Forum;
3. Lowering the barriers to engagement by providing HPC advice, training and free 'taster' access.
Organisations
- University of Manchester (Lead Research Organisation)
- DURHAM UNIVERSITY (Collaboration)
- University of Sheffield (Collaboration)
- Lancaster University (Collaboration)
- Newcastle University (Collaboration)
- UNIVERSITY OF YORK (Collaboration)
- UNIVERSITY OF LEEDS (Collaboration)
- UNIVERSITY OF LIVERPOOL (Collaboration)
Publications
Agrusta R
(2014)
The effect of metastable pyroxene on the slab dynamics
in Geophysical Research Letters
Agrusta R
(2015)
How partial melting affects small-scale convection in a plume-fed sublithospheric layer beneath fast-moving plates
in Geochemistry, Geophysics, Geosystems
Al-Hadidi M
(2015)
Carbon impurities in SrTiO 3 from first principles
in Modelling and Simulation in Materials Science and Engineering
Arregui-Mena J
(2015)
Spatial variability in the coefficient of thermal expansion induces pre-service stresses in computer models of virgin Gilsocarbon bricks
in Journal of Nuclear Materials
Ashton N
(2015)
Key factors in the use of DDES for the flow around a simplified car
in International Journal of Heat and Fluid Flow
Ashton N
(2016)
Assessment of RANS and DES methods for realistic automotive models
in Computers & Fluids
Atxitia U
(2015)
Optimal electron, phonon, and magnetic characteristics for low energy thermally induced magnetization switching
in Applied Physics Letters
Baldwin J
(2016)
Effect of random edge-vacancy disorder in zigzag graphene nanoribbons
in Physical Review B
Butz D
(2015)
Large Eddy Simulations of a turbulent premixed swirl flame using an algebraic scalar dissipation rate closure
in Combustion and Flame
Campobasso M
(2016)
Comparative assessment of the harmonic balance Navier-Stokes technology for horizontal and vertical axis wind turbine aerodynamics
in Computers & Fluids
Carslaw K
(2015)
The Climatic Importance of Uncertainties in Regional Aerosol-Cloud Radiative Forcings over Recent Decades
in Journal of Climate
Cidrim A
(2016)
Controlled polarization of two-dimensional quantum turbulence in atomic Bose-Einstein condensates
in Physical Review A
Das C
(2016)
The physics of stratum corneum lipid membranes.
in Philosophical transactions. Series A, Mathematical, physical, and engineering sciences
Demarchi B
(2016)
Protein sequences bound to mineral surfaces persist into deep time.
in eLife
Drummond ND
(2015)
Quantum Monte Carlo study of the phase diagram of solid molecular hydrogen at extreme pressures.
in Nature communications
Dykeman EC
(2015)
An implementation of the Gillespie algorithm for RNA kinetics with logarithmic time update.
in Nucleic acids research
Ellis MO
(2016)
All-optical switching in granular ferromagnets caused by magnetic circular dichroism.
in Scientific reports
Enciso-Maldonado L
(2015)
Computational Identification and Experimental Realization of Lithium Vacancy Introduction into the Olivine LiMgPO 4
in Chemistry of Materials
Evans L
(2015)
Transient thermal finite element analysis of CFC-Cu ITER monoblock using X-ray tomography data
in Fusion Engineering and Design
Evans RF
(2014)
Atomistic spin model simulations of magnetic nanomaterials.
in Journal of physics. Condensed matter : an Institute of Physics journal
Flint S
(2016)
Sedimentological and Paleoclimate Modeling Evidence for Preservation of Jurassic Annual Cycles in Sedimentation, Western Gondwana
in Earth Interactions
Guo Y
(2015)
The effects of screening length in the non-local screened-exchange functional.
in Journal of physics. Condensed matter : an Institute of Physics journal
He S
(2015)
Transition of transient channel flow after a change in Reynolds number
in Journal of Fluid Mechanics
Hickey C
(2016)
Haldane-Hubbard Mott Insulator: From Tetrahedral Spin Crystal to Chiral Spin Liquid.
in Physical review letters
Kaislaniemi L
(2014)
Dynamics of lithospheric thinning and mantle melting by edge-driven convection: Application to Moroccan Atlas mountains
in Geochemistry, Geophysics, Geosystems
Khosh Aghdam S
(2016)
Laminar and turbulent flows over hydrophobic surfaces with shear-dependent slip length
in Physics of Fluids
Kleimann J
(2015)
TOWARD MORE REALISTIC ANALYTIC MODELS OF THE HELIOTAIL: INCORPORATING MAGNETIC FLATTENING VIA DISTORTION FLOWS
in The Astrophysical Journal
Koch S
(2015)
Density functional theory screening of gas-treatment strategies for stabilization of high energy-density lithium metal anodes
in Journal of Power Sources
Ladenthin JN
(2016)
Force-induced tautomerization in a single molecule.
in Nature chemistry
Lambert F
(2015)
Dust fluxes and iron fertilization in Holocene and Last Glacial Maximum climates
in Geophysical Research Letters
Lancaster T
(2016)
Transverse field muon-spin rotation measurement of the topological anomaly in a thin film of MnSi
in Physical Review B
Lancaster T
(2015)
Transverse field muon-spin rotation signature of the skyrmion-lattice phase in Cu 2 OSeO 3
in Physical Review B
Lee K
(2016)
Phase separation and dynamics of two-component Bose-Einstein condensates
in Physical Review A
Lee K
(2016)
Non-equilibrium atomic condensates and mixtures: collective modes, condensate growth and thermalisation
in Journal of Physics B: Atomic, Molecular and Optical Physics
Lee LA
(2016)
On the relationship between aerosol model uncertainty and radiative forcing uncertainty.
in Proceedings of the National Academy of Sciences of the United States of America
Magni V
(2014)
Deep water recycling through time.
in Geochemistry, geophysics, geosystems : G(3)
Mao X
(2015)
Effects of base flow modifications on noise amplifications: flow past a backward-facing step
in Journal of Fluid Mechanics
Maunder B
(2016)
Relamination of mafic subducting crust throughout Earth's history
in Earth and Planetary Science Letters
Miller EL
(2016)
Diverse Ecological Strategies Are Encoded by Streptococcus pneumoniae Bacteriocin-Like Peptides.
in Genome biology and evolution
Milovanovic M
(2015)
Meron deconfinement in the quantum Hall bilayer at intermediate distances
in Physical Review B
Morgan B
(2016)
Variation in surface energy and reduction drive of a metal oxide lithium-ion anode with stoichiometry: a DFT study of lithium titanate spinel surfaces
in Journal of Materials Chemistry A
Mostaani E
(2016)
Quasiparticle and excitonic gaps of one-dimensional carbon chains.
in Physical chemistry chemical physics : PCCP
Mostaani E
(2015)
Quantum Monte Carlo calculation of the binding energy of bilayer graphene.
in Physical review letters
Mumford S
(2015)
Photospheric logarithmic velocity spirals as MHD wave generation mechanisms
in Monthly Notices of the Royal Astronomical Society
Ostler TA
(2015)
Strain Induced Vortex Core Switching in Planar Magnetostrictive Nanostructures.
in Physical review letters
Papasavvas CA
(2015)
Gain control through divisive inhibition prevents abrupt transition to chaos in a neural mass model.
in Physical review. E, Statistical, nonlinear, and soft matter physics
Papic Z
(2015)
Many-body localization in disorder-free systems: The importance of finite-size constraints
in Annals of Physics
Pattinson R
(2014)
Equilibration of a finite-temperature binary Bose gas formed by population transfer
in Physical Review A
Peaker C
(2015)
The vacancy-hydrogen defect in diamond: A computational study
in physica status solidi (a)
Peaker C
(2016)
Assignment of 13C hyperfine interactions in the P1-center in diamond
in Diamond and Related Materials
Description | This award, together with EP/K000225/1 funded the creation of a centre of excellence in high performance computing for the N8 Universities, N8-HPC, with a significant computer cluster and support services. The centre is still fully active, and has developed communities of practice in key research areas. Projects cover a range of disciplines including Chemistry, Maths, Engineering, Life Sciences, Earth Sciences, Physical Sciences and ICT. The scientific impact of N8-HPC has been significant, with the facility featuring in 84 grant applications totalling £83m, of which £56m has been funded and its use acknowledged in 415 published papers and 9 REF Environment Templates. |
Exploitation Route | This varies from project to project and is the responsibility of individual investigators. We have, however, worked actively with the business engagement services of the N8 universities to facilitate collaboration with industry and identify opportunities for knowledge transfer. |
Sectors | Aerospace, Defence and Marine,Chemicals,Electronics,Energy,Environment,Healthcare,Manufacturing, including Industrial Biotechology,Pharmaceuticals and Medical Biotechnology |
URL | http://n8hpc.org.uk/ |
Description | N8-HPC has made a significant contribution to industry engagement, with 40% of projects running on the N8-HPC facility over its life involving industry collaboration, and up to 35 companies involved at any one time. |
First Year Of Impact | 2013 |
Sector | Aerospace, Defence and Marine,Chemicals,Electronics,Energy,Environment,Healthcare,Manufacturing, including Industrial Biotechology,Pharmaceuticals and Medical Biotechnology |
Impact Types | Economic |
Description | N8 Centre of Excellence in Computationally Intensive Research |
Organisation | Durham University |
Country | United Kingdom |
Sector | Academic/University |
PI Contribution | Manchester coordinated sharing of technical expertise in computationally intensive research, and research findings across the 8 collaborating universities. The collaboration covered all STEM disciplines. |
Collaborator Contribution | The partners shared technical expertise in computationally intensive research, and in research findings. |
Impact | Outcomes are mainly summarised elsewhere in the return. The partners have recently agreed to increase the level of funding for coordinating the collaboration, and extend it's scope to all academic disciplines. |
Start Year | 2013 |
Description | N8 Centre of Excellence in Computationally Intensive Research |
Organisation | Lancaster University |
Country | United Kingdom |
Sector | Academic/University |
PI Contribution | Manchester coordinated sharing of technical expertise in computationally intensive research, and research findings across the 8 collaborating universities. The collaboration covered all STEM disciplines. |
Collaborator Contribution | The partners shared technical expertise in computationally intensive research, and in research findings. |
Impact | Outcomes are mainly summarised elsewhere in the return. The partners have recently agreed to increase the level of funding for coordinating the collaboration, and extend it's scope to all academic disciplines. |
Start Year | 2013 |
Description | N8 Centre of Excellence in Computationally Intensive Research |
Organisation | Newcastle University |
Country | United Kingdom |
Sector | Academic/University |
PI Contribution | Manchester coordinated sharing of technical expertise in computationally intensive research, and research findings across the 8 collaborating universities. The collaboration covered all STEM disciplines. |
Collaborator Contribution | The partners shared technical expertise in computationally intensive research, and in research findings. |
Impact | Outcomes are mainly summarised elsewhere in the return. The partners have recently agreed to increase the level of funding for coordinating the collaboration, and extend it's scope to all academic disciplines. |
Start Year | 2013 |
Description | N8 Centre of Excellence in Computationally Intensive Research |
Organisation | University of Leeds |
Country | United Kingdom |
Sector | Academic/University |
PI Contribution | Manchester coordinated sharing of technical expertise in computationally intensive research, and research findings across the 8 collaborating universities. The collaboration covered all STEM disciplines. |
Collaborator Contribution | The partners shared technical expertise in computationally intensive research, and in research findings. |
Impact | Outcomes are mainly summarised elsewhere in the return. The partners have recently agreed to increase the level of funding for coordinating the collaboration, and extend it's scope to all academic disciplines. |
Start Year | 2013 |
Description | N8 Centre of Excellence in Computationally Intensive Research |
Organisation | University of Liverpool |
Country | United Kingdom |
Sector | Academic/University |
PI Contribution | Manchester coordinated sharing of technical expertise in computationally intensive research, and research findings across the 8 collaborating universities. The collaboration covered all STEM disciplines. |
Collaborator Contribution | The partners shared technical expertise in computationally intensive research, and in research findings. |
Impact | Outcomes are mainly summarised elsewhere in the return. The partners have recently agreed to increase the level of funding for coordinating the collaboration, and extend it's scope to all academic disciplines. |
Start Year | 2013 |
Description | N8 Centre of Excellence in Computationally Intensive Research |
Organisation | University of Sheffield |
Country | United Kingdom |
Sector | Academic/University |
PI Contribution | Manchester coordinated sharing of technical expertise in computationally intensive research, and research findings across the 8 collaborating universities. The collaboration covered all STEM disciplines. |
Collaborator Contribution | The partners shared technical expertise in computationally intensive research, and in research findings. |
Impact | Outcomes are mainly summarised elsewhere in the return. The partners have recently agreed to increase the level of funding for coordinating the collaboration, and extend it's scope to all academic disciplines. |
Start Year | 2013 |
Description | N8 Centre of Excellence in Computationally Intensive Research |
Organisation | University of York |
Country | United Kingdom |
Sector | Academic/University |
PI Contribution | Manchester coordinated sharing of technical expertise in computationally intensive research, and research findings across the 8 collaborating universities. The collaboration covered all STEM disciplines. |
Collaborator Contribution | The partners shared technical expertise in computationally intensive research, and in research findings. |
Impact | Outcomes are mainly summarised elsewhere in the return. The partners have recently agreed to increase the level of funding for coordinating the collaboration, and extend it's scope to all academic disciplines. |
Start Year | 2013 |