Providing the ARCHER community with adjoint modelling tools for high-performance oceanographic and cryospheric computation

The MITgcm (MIT General Circulation Model) is a numerical model designed for study of the atmosphere, ocean, and climate (Marshall et al. 1997a,b). Its non-hydrostatic formulation enables it to simulate fluid phenomena over a wide range of scales; its adjoint capability enables it to be applied to s...

Full description

Bibliographic Details
Main Authors: Pringle, GC, Jones, DC, Goswami, S, Narayanan, SHK, Goldberg, D
Format: Report
Language:unknown
Published: EPCC 2016
Subjects:
Antarctic
Archer
Ferreira
Antarc*
British Antarctic Survey
Online Access:http://nora.nerc.ac.uk/id/eprint/516314/
http://www.archer.ac.uk/community/eCSE/eCSE03-09/eCSE03-09.php
id ftnerc:oai:nora.nerc.ac.uk:516314
record_format openpolar
spelling ftnerc:oai:nora.nerc.ac.uk:516314 2023-05-15T13:49:33+02:00 Providing the ARCHER community with adjoint modelling tools for high-performance oceanographic and cryospheric computation Pringle, GC Jones, DC Goswami, S Narayanan, SHK Goldberg, D 2016-10-11 http://nora.nerc.ac.uk/id/eprint/516314/ http://www.archer.ac.uk/community/eCSE/eCSE03-09/eCSE03-09.php unknown EPCC Pringle, GC; Jones, DC orcid:0000-0002-8701-4506 Goswami, S; Narayanan, SHK; Goldberg, D. 2016 Providing the ARCHER community with adjoint modelling tools for high-performance oceanographic and cryospheric computation. EPCC. Publication - Report NonPeerReviewed 2016 ftnerc 2023-02-04T19:44:32Z The MITgcm (MIT General Circulation Model) is a numerical model designed for study of the atmosphere, ocean, and climate (Marshall et al. 1997a,b). Its non-hydrostatic formulation enables it to simulate fluid phenomena over a wide range of scales; its adjoint capability enables it to be applied to sensitivity analysis and state estimation problems. By employing fluid isomorphisms, one hydrodynamical kernel can be used to simulate flow in both the atmosphere and ocean. This report describes the work undertaken under the embedded CSE programm of the ARCHER UK National Supercomputing Service, and was entitled "Providing the ARCHER community with adjoint modelling tools for high-performance oceanographic and cryospheric computation", where the main proposer was Dr Dan Jones (British Antarctic Survey, or BAS), with co-proposers Dr Dan Goldberg (University of Edinburgh, or UoE), Dr Paul Holland (BAS), and Dr David Ferreira (Reading University). The technical work, performed by Dr Sudipta Goswami (BAS) and Dr Gavin Pringle (UoE), was undertaken between mid-February and mid-December, 2015. A recent version of MITgcm, namely version c65i, has been ported to ARCHER for all ARCHER users Report Antarc* Antarctic British Antarctic Survey Natural Environment Research Council: NERC Open Research Archive Antarctic Archer ENVELOPE(162.867,162.867,-76.850,-76.850) Ferreira ENVELOPE(-62.050,-62.050,-64.600,-64.600)
institution Open Polar
collection Natural Environment Research Council: NERC Open Research Archive
op_collection_id ftnerc
language unknown
description The MITgcm (MIT General Circulation Model) is a numerical model designed for study of the atmosphere, ocean, and climate (Marshall et al. 1997a,b). Its non-hydrostatic formulation enables it to simulate fluid phenomena over a wide range of scales; its adjoint capability enables it to be applied to sensitivity analysis and state estimation problems. By employing fluid isomorphisms, one hydrodynamical kernel can be used to simulate flow in both the atmosphere and ocean. This report describes the work undertaken under the embedded CSE programm of the ARCHER UK National Supercomputing Service, and was entitled "Providing the ARCHER community with adjoint modelling tools for high-performance oceanographic and cryospheric computation", where the main proposer was Dr Dan Jones (British Antarctic Survey, or BAS), with co-proposers Dr Dan Goldberg (University of Edinburgh, or UoE), Dr Paul Holland (BAS), and Dr David Ferreira (Reading University). The technical work, performed by Dr Sudipta Goswami (BAS) and Dr Gavin Pringle (UoE), was undertaken between mid-February and mid-December, 2015. A recent version of MITgcm, namely version c65i, has been ported to ARCHER for all ARCHER users
format Report
author Pringle, GC
Jones, DC
Goswami, S
Narayanan, SHK
Goldberg, D
spellingShingle Pringle, GC
Jones, DC
Goswami, S
Narayanan, SHK
Goldberg, D
Providing the ARCHER community with adjoint modelling tools for high-performance oceanographic and cryospheric computation
author_facet Pringle, GC
Jones, DC
Goswami, S
Narayanan, SHK
Goldberg, D
author_sort Pringle, GC
title Providing the ARCHER community with adjoint modelling tools for high-performance oceanographic and cryospheric computation
title_short Providing the ARCHER community with adjoint modelling tools for high-performance oceanographic and cryospheric computation
title_full Providing the ARCHER community with adjoint modelling tools for high-performance oceanographic and cryospheric computation
title_fullStr Providing the ARCHER community with adjoint modelling tools for high-performance oceanographic and cryospheric computation
title_full_unstemmed Providing the ARCHER community with adjoint modelling tools for high-performance oceanographic and cryospheric computation
title_sort providing the archer community with adjoint modelling tools for high-performance oceanographic and cryospheric computation
publisher EPCC
publishDate 2016
url http://nora.nerc.ac.uk/id/eprint/516314/
http://www.archer.ac.uk/community/eCSE/eCSE03-09/eCSE03-09.php
long_lat ENVELOPE(162.867,162.867,-76.850,-76.850)
ENVELOPE(-62.050,-62.050,-64.600,-64.600)
geographic Antarctic
Archer
Ferreira
geographic_facet Antarctic
Archer
Ferreira
genre Antarc*
Antarctic
British Antarctic Survey
genre_facet Antarc*
Antarctic
British Antarctic Survey
op_relation Pringle, GC; Jones, DC orcid:0000-0002-8701-4506
Goswami, S; Narayanan, SHK; Goldberg, D. 2016 Providing the ARCHER community with adjoint modelling tools for high-performance oceanographic and cryospheric computation. EPCC.
_version_ 1766251645560160256

Similar Items