wiki:IPSLCMIP6

Version 107 (modified by mafoipsl, 8 years ago) (diff)

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General information on CMIP6

Special GMD issue: http://www.geosci-model-dev.net/special_issue590.html/

CMIP6 foundation paper: http://www.geosci-model-dev-discuss.net/gmd-2015-265/

ESDOC for CMIP6 and other : http://search.es-doc.org/

For more general information on CMIP6, see http://www.wcrp-climate.org/wgcm-cmip/wgcm-cmip6

See also: https://pcmdi.llnl.gov/projects/input4mips/ and https://docs.google.com/document/d/1pU9IiJvPJwRvIgVaSDdJ4O0Jeorv_2ekEtted34K9cA/edit?usp=sharing

The CMIP6 data request is documented at https://earthsystemcog.org/projects/wip/CMIP6DataRequest

Supercomputing for CMIP6

Mailing list at IPSL: cmip6_dev@… available from https://listes.ipsl.fr/sympa/info/cmip6_dev

HPC consumption : https://vesg.ipsl.upmc.fr/thredds/fileServer/IPSLFS/igcmg/ConsoGENCMIP6/index.html

Running CMIP6 simulations through the supervisor (Limited access) : https://hermes.ipsl.upmc.fr/static/simulation.monitoring.html?sortField=executionStartDate&sortDirection=desc&timeslice=1W&activity=ipsl&machine=tgcc-curie&accounting-project=devcmip6&state=running

Information on new disk spaces: http://forge.ipsl.jussieu.fr/igcmg_doc/wiki/DocBenvBtgcc#SpecificfilesystemsforCMIP6

Deck at IPSL

Deck (entry card for CMIP)

  • Person in charge: Olivier Boucher
  • Persons performing the runs: IPSL engineers (Arnaud, Sébastien, Sonia, Marie-Alice)
  • Models: all configurations used for the MIPs: IPSL-CM6-LR, IPSL-CM6-MR, IPSL-CM6-OA5-VLR
  • piControl : 500 years at least
  • AMIP : 1979-2014 : 10 members of 35 years
  • +1%CO2/y : 140 years
  • abrupt4xCO2 : 250 years

Historical (entry card for CMIP6)

  • historical : 1850-2014

Individual MIPs at IPSL

AerChemMIP (strat chemistry)

  • Persons in charge: Slimane Bekki, Marion Marchand
  • Persons performing the runs: + Tatsuo
  • Model version: IPSL-CM6-LR-REPROBUS
  • Simulations: Hincast: 1960-2010, Future: 1960-2100, Fixed CFCs: 1960-2100, Fixed GHG: 1960-2100

AerChemMIP (trop chemistry)

  • Person in charge: Didier Hauglustaine
  • Persons performing the runs: Didier Hauglustaine (+ Anne Cozic as a back up)
  • model to be used: IPSL-CM6-CHT VLR AP 96x95x39 (all chemistry NMHC_AER)
  • Simulations :
    • piControl (500 years)
      • TIER 1
        • 1.1.1 transient historical (165 years)
        • 1.1.1 transient historical 1850 NTCF emissions (165 years)
        • 2.1.1 Reference SSP3-7 (40 years)
        • 2.1.2 Perturbation SSP3-7 (40 years)
        • SSP3-7 no change in biogenic (165 years)
      • TIER2:
        • 1.1.3 transient historical perturbation 1850 biogenics (165 years)
        • 2.1.1 SSP1-2.6 impact of land use (40 years)

AerChemMIP (aerosols)

  • Persons in charge: Yves Balkanski, Olivier Boucher
  • Persons performing the runs: Yves Balkanski, CDD Crescendo, Olivier Boucher (+ Anne Cozic as a back up)
  • Create aerosols forcing : Simulation LMDZORINCA 144x142x79 NP - historical and 1 scenario (Yves)
  • model : IPSLCM6CHT 144x142x79 NP (only Aerosols) (24h/year - 377 procs)
  • simulations
    • Tier 1 Experiments
      • 1.Future policy effects on NTCFs and their climate impacts (328 years)
      • 2.1. Transient coupled ocean climate impacts
      • 2.2. ERFs, as 2.1 but specified transient SST simulations
      • 3. Historical forcing from reactive WMGHGs
      • 3.3 Perturbation: 1850 WMGHG concentrations, 2014 aerosols (not NOx) emissions. (30 years)
      • 3.4 Perturbation: 1850 WMGHG concentrations, 2014 BC emissions. (30 years)
    • Tier 2 and 3 Experiments
      • Address combinations of NTCFs to identify nonlinearities
        • Separate aerosols: coupled ocean and ERF (30 years)
        • Timeslice ERFs for aerosol, BC (30 years)
      • Quantifying the ERFs of changes in natural emissions
        • Timeslice ERFs: dust, seasalt, DMS, fires, (4*30 years)
    • piControl

C4MIP

  • Person in charge: Patricia Cadule (Laurent Bopp as a back up)
  • Persons performing the runs: Patricia Cadule, Laurent Bopp, Philippe Peylin
  • Model to be used:
    • concentration driven runs: IPSL-CM6.1-LR (and potentially IPSL-CM6.1-MR for a small number of runs 1pctCO2bgc only)
    • emission-driven runs: IPSL-CM6.1-LR (with 3D activation of CO2 transport in the atmosphere)
  • Runs to be performed:
    • concentration-driven runs (1pctCO2bgc, 1pctCO2rad, historicalbgc, ssp5-85bgc, ssp5-85extbgc) --> Laurent Bopp (Total : 140+140+155+85+200 = 720 years)
    • emission-driven runs (esmPIcontrol, esmHistorical, esmsst5-85) --> Patricia Cadule (Total = 200+ + 155 + 85 = 440 years)
    • Nitrogen-deposition runs (1pctCO2couN, 1pctCO2bgcN) --> Philippe Peylin (Total : 140 + 140 = 280 years)

CDRMIP

CFMIP

  • Person in charge: Sandrine Bony
  • Persons in charge of runs: Ionela M. (avec Abderahmanne A. et Laurent F.)
  • Model: IPSL-CM6-LR (et aussi éventuellement 6.2 et 5A)
  • Tier1 (total 174 model years) + part of Tier 2 (max 1030 model years) per model

DCCP

  • Person in charge: Juliette Mignot (+ Didier Swingedouw et Eric Guyliardi)
  • Person doing the runs: Juliette Mignot, Didier Swingedouw
  • Model: IPSL-CM6-VLR
  • Number of years: TBC

FAFMIP

  • Person in charge: Didier Swingedouw (didier.swingedouw@…)
  • See: http://www.met.reading.ac.uk/~jonathan/FAFMIP/ for a full description of the experimental design.
  • Model: IPSL-CM6-LR
  • Simulations: using IPSL model, it is planned to perform the three experiments (stressFAF, heatFAF, waterFAF) from Tier1 for a total of 210 years of simulations (280 years if control has to be rerun). The main difficulty is to have 3D tendencies in the ocean as diagnostics outputs of the simulations. NEMO will be hopefully equipped with a key to allow such a requirement.

GeoMIP

GMMIP

  • Person in charge: Laurent Li
  • See http://www.lasg.ac.cn/gmmip/ and http://www.lmd.jussieu.fr/~li/Li_reunion_climat_GMMIP.pptx for a presentation
  • Modèle: IPSL-CM6-LR
  • La premiere simulation est une simulation AMIP etendue sur la periode 1870/2013.
  • La deuxieme simulation utilisera le modele couple, mais une partie de la SST n'est pas libre, parce qu'elle sera relaxee vers les valeurs observees sur la periode 1870/2013. Les zones de relaxation sont AMO (Atlantique du Nord) et IPO (Pacifique tropical).
  • La troisieme simulation consiste a tester l'orographie, avec les effets mecaniques et thermodynamiques separes.
  • Le nombre total d'annees est de l'ordre de 500 ans (3/5 en mode couple, le reste avec atmosphere seule).

HappiMIP

  • Unofficial MIP
  • Not enough IPSL interest for now

HighResMIP

  • Person in charge: Thomas Dubos

ISMIP6

  • Person in charge: Martin Vancoppenolle
  • Model: any IPSL model contributing to CMIP6
  • No additional specific run
  • Need to make sure all relevant diagnostics are in the standard runs

LS3MIP

  • Person in charge: Frédérique Cheruy
  • Persons doing the runs: Agnès Ducharne (runs forcés ORCHIDEE), Frédérique + Josefine (runs couplés)
  • Modèle : ORCHIDEE + IPSL-CM6-LR
  • Runs historique + scenario + ?? (~few 100 years)

LUMIP

  • Person in charge : Nathalie de Noblet
  • Person performing the runs: Devaraju Narayanappa
  • Model version: IPSL-CM6-LR
  • Simulations: TBC depending on help

OCMIP

  • Person in charge : Julie Deshayes
  • Persons performing the runs : Julie Deshayes, Juliette Mignot, Christian Ethé, Laurent Bopp, CDD
  • OMIP tier A avec eORCA1 resolution : eORCA1 (1deg) runs : 1 run de 310 yr, responsables : Julie et Juliette
  • OMIP tier B avec eORCA1 resolution : eORCA1 (1deg) runs : 2 runs de 310 yr (cf 2 types de concentration CO2 atmosphérique), responsables : Julie, Juliette, Laurent et Christian (le/la responsable sera identifié ultérieurement)
  • OMIP tier A avec eORCA025 resolution : eORCA025 (1/4 deg) runs : 1 run de 310 yr, responsable : CDD CRESCENDO qui va être embauché au LSCE
  • OMIP tier B avec eORCA025 resolution : eORCA025 (1/4 deg) runs : 2 runs de 310 yr (cf 2 types de concentration CO2 atmosphérique), responsable : CDD CRESCENDO qui va être embauché au LSCE
  • Calendrier: les runs OMIP eORCA1 ne seront lancés qu’une fois la configuration couplée avec eORCA1 figée et donc spinup pour la bio réalisé >> pas avant 2017 a priori les runs OMIP eORCA025 ne seront lancés qu’une fois la configuration forcée eORCA025 figée, a priori à la fin du contrat de Gildas Mainsant (CDD Labex IPSL physiquement au LGGE, fin de contrat decembre 2016 je crois)

PMIP

  • Persons in charge: Masa Kageyama, Pascale Braconnot
  • Persons doing the runs: Pascale (Holocene + LIG 127kyr), Myriam Khodri (Last millenium), ?? + Masa (Pliocene), Jean-Yves Peterschmitt
  • Tier1 + Tier2 ??
  • Model: IPSL-CM6-LR (Tier 1) + IPSL-CM5??-VLR (Tier 2)
  • see https://wiki.lsce.ipsl.fr/pmip3/doku.php/pmip3:cmip6:design:index for more details

RFMIP

ScenarioMIP

SIMIP

SolarMIP

  • Person in charge : Marion Marchand, Slimane Bekki
  • Runs distributed over the other MIPs

VolMIP

  • Person in charge: Myriam Khodri
  • Persons responsible for the runs: Myriam Khodri et Nicolas Lebas
  • Model: IPSL-CM6-LR (LMDZ144x140x79, NEMO-ORCA1)
  • VolMIP: 140 simulations for a total of 1067 years
  • Past1000: a single 1150 years (850-2000)

Forcing datasets

Greenhouse gases

Chemistry and aerosols

Solar forcing

  • Person in charge: Olivier Boucher, Marion Marchand, Rong-Ming Hu
  • See http://solarisheppa.geomar.de/cmip6 for more information
  • The scripts and data are on ciclad /home/oboucher/CMIP6/SOLAR
  • The solar forcing preliminary files are on ciclad /home/oboucher/CMIP6/SOLAR/OUTPUT
  • The time period of data file is from 1 January 1850 to 31 December 2299. We reprocessed the daily spectral solar forcing data into the data files with 2 and 6 wavebands for RRTM. We also added the variables of solar irradiance anomaly and fraction for the model inputs in a particular waveband. The netcdf files need to have the same number of days as the LMDz year that is run (either 360, 365 or 366 days). There is a flag ok_suntime_rrtm that can be activated but this only works for RRTM, flag_rrtm=1.

Stratospheric ozone

Volcanic aerosol

Land use

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