DiRAC-3 Operations 2019-2022 - Edinburgh
Lead Research Organisation:
University of Edinburgh
Department Name: Sch of Physics and Astronomy
Abstract
Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.
Planned Impact
The DiRAC-3 Facility strategy for impact and innovation delivery is well-aligned with the UK government Industrial Strategy. As such, much of our societal and economic impact will continue to be driven by our engagements with industry. Each DiRAC-3 service provider has a local industrial strategy to deliver continued high levels of industrial engagement and to explore avenues to increase innovation and industrial returns over the next three years. Progress towards the industrial strategy goals will be monitored by the Service Management Boards and the DiRAC Technical Manager and reported to STFC via the DiRAC Oversight Committee.
The "Pathways to Impact" document attached to the lead JeS form for this proposal describes the overall DiRAC-3 industrial strategy, including our strategic goals and key performance indicators.
Examples of the expected impact of DiRAC-3 include:
Dissemination of best practice in High Performance Computing software engineering throughout the theoretical Particle Physics, Astronomy and Nuclear physics communities in the UK as well as to industry partners.
Training of the next generation of research scientists to tackle problems effectively on state-of-the- art of High Performance Computing facilities. Such skills are much in demand from high-tech industry and the cadre of highly-skilled, computationally literate individuals nurtured by DiRAC-3 will have influence beyond academia and will help to maintain the UK's scientific and economic leadership.
Development and delivery of co-design projects with industry partners to improve future generations of hardware and software.
Development of new techniques in the area of High Performance Data Analytics which will benefit industry partners and researchers in other fields such as biomedicine, biology, engineering, economics and social science, and the natural environment who can use these developments to improve research outcomes in their areas.
Sharing of best practice on the design and operation of distributed HPC facilities with UK National e-Infrastructure partners and providing leadership towards an integrated UKRI National e-Infrastructure. By supporting the uptake of emerging technologies by the DiRAC research communities, we will enable other research communities, both in academia and industry, to explore the value of using leading-edge technology to support their research workflows.
Engagement with the general public to promote interest in science, and to explain how our ability to solve complex problems using the latest computer technology leads to new scientific capabilities/insights. Engagement of this kind also naturally encourages the uptake of STEM subjects in schools.
The "Pathways to Impact" document attached to the lead JeS form for this proposal describes the overall DiRAC-3 industrial strategy, including our strategic goals and key performance indicators.
Examples of the expected impact of DiRAC-3 include:
Dissemination of best practice in High Performance Computing software engineering throughout the theoretical Particle Physics, Astronomy and Nuclear physics communities in the UK as well as to industry partners.
Training of the next generation of research scientists to tackle problems effectively on state-of-the- art of High Performance Computing facilities. Such skills are much in demand from high-tech industry and the cadre of highly-skilled, computationally literate individuals nurtured by DiRAC-3 will have influence beyond academia and will help to maintain the UK's scientific and economic leadership.
Development and delivery of co-design projects with industry partners to improve future generations of hardware and software.
Development of new techniques in the area of High Performance Data Analytics which will benefit industry partners and researchers in other fields such as biomedicine, biology, engineering, economics and social science, and the natural environment who can use these developments to improve research outcomes in their areas.
Sharing of best practice on the design and operation of distributed HPC facilities with UK National e-Infrastructure partners and providing leadership towards an integrated UKRI National e-Infrastructure. By supporting the uptake of emerging technologies by the DiRAC research communities, we will enable other research communities, both in academia and industry, to explore the value of using leading-edge technology to support their research workflows.
Engagement with the general public to promote interest in science, and to explain how our ability to solve complex problems using the latest computer technology leads to new scientific capabilities/insights. Engagement of this kind also naturally encourages the uptake of STEM subjects in schools.
Organisations
Publications
Gavardi A
(2023)
NNLO+PS W+W- production using jet veto resummation at NNLL'
in Journal of High Energy Physics
Lindert J
(2023)
Precise predictions for V + 2 jet backgrounds in searches for invisible Higgs decays
in Journal of High Energy Physics
Bartlett-Tisdall S
(2024)
Bootstrapping boundary QED. Part I
in Journal of High Energy Physics
Chawdhry H
(2021)
Two-loop leading-color helicity amplitudes for three-photon production at the LHC
in Journal of High Energy Physics
Banfi A
(2024)
Higgs interference effects in top-quark pair production in the 1HSM
in Journal of High Energy Physics
Ryan S
(2021)
Excited and exotic bottomonium spectroscopy from lattice QCD
in Journal of High Energy Physics
Gayer L
(2025)
Highly excited B, Bs and Bc meson spectroscopy from lattice QCD
in Journal of High Energy Physics
Czakon M
(2023)
NNLO B-fragmentation fits and their application to $$ t\overline{t} $$ production and decay at the LHC
in Journal of High Energy Physics
Yeo J
(2024)
DK/Dp scattering and an exotic virtual bound state at the SU(3) flavour symmetric point from lattice QCD
in Journal of High Energy Physics
Czakon M
(2021)
B-hadron production in NNLO QCD: application to LHC t$$ \overline{t} $$ events with leptonic decays
in Journal of High Energy Physics
Boyle P
(2023)
Isospin-breaking corrections to light-meson leptonic decays from lattice simulations at physical quark masses
in Journal of High Energy Physics
Alvarez M
(2023)
NNLO QCD corrections to event shapes at the LHC
in Journal of High Energy Physics
Czakon M
(2023)
Infrared-safe flavoured anti-kT jets
in Journal of High Energy Physics
Drach V
(2021)
Scattering of Goldstone bosons and resonance production in a composite Higgs model on the lattice
in Journal of High Energy Physics
Banfi A
(2024)
A POWHEG generator for deep inelastic scattering
in Journal of High Energy Physics
Andrade T
(2022)
Evidence for violations of Weak Cosmic Censorship in black hole collisions in higher dimensions
in Journal of High Energy Physics
Chawdhry H
(2021)
NNLO QCD corrections to diphoton production with an additional jet at the LHC
in Journal of High Energy Physics
Cheung G
(2021)
DK I = 0, $$ D\overline{K} $$ I = 0, 1 scattering and the $$ {D}_{s0}^{\ast } $$(2317) from lattice QCD
in Journal of High Energy Physics
Chawdhry H
(2021)
Two-loop leading-colour QCD helicity amplitudes for two-photon plus jet production at the LHC
in Journal of High Energy Physics
Poncelet R
(2021)
NNLO QCD study of polarised W+W- production at the LHC
in Journal of High Energy Physics
Czakon M
(2021)
NNLO QCD predictions for W+c-jet production at the LHC
in Journal of High Energy Physics
Delaney J
(2024)
Radiative transitions in charmonium from lattice QCD
in Journal of High Energy Physics
Mou Z
(2021)
Simulations of a bubble wall interacting with an electroweak plasma
in Journal of High Energy Physics
Czakon M
(2023)
A detailed investigation of W+c-jet at the LHC
in Journal of High Energy Physics
Badger S
(2023)
Isolated photon production in association with a jet pair through next-to-next-to-leading order in QCD
in Journal of High Energy Physics
Mellor T
(2023)
MARVEL analysis of high-resolution spectra of thioformaldehyde (H 2 CS)
in Journal of Molecular Spectroscopy
Nightingale J
(2021)
PyAutoFit: A Classy Probabilistic Programming Language for Model Composition and Fitting
in Journal of Open Source Software
Ceuster F
(2022)
3D Line Radiative Transfer & Synthetic Observations with Magritte
in Journal of Open Source Software
Nightingale J
(2021)
PyAutoLens: Open-Source Strong Gravitational Lensing
in Journal of Open Source Software
Saló L
(2024)
GRFolres: A code for modified gravity simulations in strong gravity
in Journal of Open Source Software
Aurrekoetxea J
(2024)
GRDzhadzha: A code for evolving relativistic matter on analytic metric backgrounds
in Journal of Open Source Software
Andrade T
(2021)
GRChombo: An adaptable numerical relativity code for fundamental physics
in Journal of Open Source Software
Salvioni G
(2020)
Model nuclear energy density functionals derived from ab initio calculations
in Journal of Physics G: Nuclear and Particle Physics
Boyle P
(2020)
Latest Results on Lattice Calculation Concerning K ? p l + l - Decays
in Journal of Physics: Conference Series
Agudelo Rueda J
(2021)
Three-dimensional magnetic reconnection in particle-in-cell simulations of anisotropic plasma turbulence
in Journal of Plasma Physics
Anisman L
(2022)
Cross-sections for heavy atmospheres: H 2 O continuum
in Journal of Quantitative Spectroscopy and Radiative Transfer
Pastorek A
(2022)
Time-resolved fourier transform infrared emission spectroscopy of NH radical in the X3S- ground state
in Journal of Quantitative Spectroscopy and Radiative Transfer
Clark V
(2020)
The high-temperature rotation-vibration spectrum and rotational clustering of silylene (SiH2)
in Journal of Quantitative Spectroscopy and Radiative Transfer
Bowesman CA
(2024)
A hyperfine-resolved spectroscopic model for vanadium monoxide (51V16O).
in Molecular physics
Mant B
(2019)
The infrared spectrum of PF 3 and analysis of rotational energy clustering effect
in Molecular Physics
Civiš S
(2023)
Infrared Spectra of Small Radicals for Exoplanetary Spectroscopy: OH, NH, CN and CH: The State of Current Knowledge.
in Molecules (Basel, Switzerland)
Katz H
(2023)
Two modes of LyC escape from bursty star formation: implications for [C ii ] deficits and the sources of reionization
in Monthly Notices of the Royal Astronomical Society
Slyz A
(2020)
How to quench a dwarf galaxy: The impact of inhomogeneous reionization on dwarf galaxies and cosmic filaments
in Monthly Notices of the Royal Astronomical Society
Smith R
(2020)
The Cloud Factory I: Generating resolved filamentary molecular clouds from galactic-scale forces
in Monthly Notices of the Royal Astronomical Society
Pettini M
(2020)
A bound on the 12C/13C ratio in near-pristine gas with ESPRESSO
in Monthly Notices of the Royal Astronomical Society
Bate M
(2023)
The statistical properties of stars at redshift, z = 5, compared with the present epoch
in Monthly Notices of the Royal Astronomical Society
Scott L
(2021)
Convective core entrainment in 1D main-sequence stellar models
in Monthly Notices of the Royal Astronomical Society
Kelly A
(2021)
The origin of X-ray coronae around simulated disc galaxies
in Monthly Notices of the Royal Astronomical Society
Brown S
(2024)
ARTEMIS emulator: exploring the effect of cosmology and galaxy formation physics on Milky Way-mass haloes and their satellites
in Monthly Notices of the Royal Astronomical Society
De Vries N
(2023)
Tidal dissipation due to the elliptical instability and turbulent viscosity in convection zones in rotating giant planets and stars
in Monthly Notices of the Royal Astronomical Society
| Title | Supplemental data for the report "Optimisation of lattice simulations energy efficiency" |
| Description | Supplemental data for the report "Optimisation of lattice simulations energy efficiency". Also available as a git repository. It contains: Full copy of benchmark run directories Power monitoring scripts Power monitoring raw measurements Power monitoring data analysis and results used in the report For a more complete description, please see the README.md file. |
| Type Of Material | Database/Collection of data |
| Year Produced | 2022 |
| Provided To Others? | Yes |
| URL | https://zenodo.org/record/7057645 |
| Title | Supplemental data for the report "Optimisation of lattice simulations energy efficiency" |
| Description | Supplemental data for the report "Optimisation of lattice simulations energy efficiency". Also available as a git repository. It contains: Full copy of benchmark run directories Power monitoring scripts Power monitoring raw measurements Power monitoring data analysis and results used in the report For a more complete description, please see the README.md file. |
| Type Of Material | Database/Collection of data |
| Year Produced | 2022 |
| Provided To Others? | Yes |
| URL | https://zenodo.org/record/7057644 |