Page updated on:
NEWS!
- Near real-time release candidate test will be available from 9 February
- Implementation date is 11th May 2021 06UTC cycle
- Current evaluation is now available
- A technical webinar to support users requesting ENS model level data has been arranged for
16 Feb, 10:00 UTC - Join the webinar
A short presentation will be followed by a Q&A session. - Updated BUFR templates, please test your decoding software
- Tropical Cyclone tracks from the 06/18 UTC forecast cycles will be made available as WMO essential products.
Recording of the first webinar is now available
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Implementation timeline
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Meteorological content
In this model cycle single-precision for ENS (forecast up to d+46 and hindcast) and HRES (forecast) will be introduced. Research carried out at the University of Oxford, Météo-France and ECMWF has shown that it is possible to significantly reduce the arithmetic precision of many of the calculations performed in numerical weather prediction models without compromising the quality of weather forecasts. ‘Single precision’ forecasts have the advantage of being computationally less expensive than traditional ‘double precision’ forecasts. Such efficiency savings will greatly facilitate the introduction of higher-resolution ensemble forecasts and other model improvements in line with ECMWF’s Strategy to 2025. The article 'Progress in using single precision in the IFS' provides additional information.
Moreover, the ENS vertical levels will be increased to 137 to bring it in line with HRES.
Meteorological impact
Evaluation of 47r2
The two changes at 47r2 were a reduction to single precision in our HRES and ENS forecasts and (with the computational savings made) an increase from 91 to 137 levels in the ENS forecast. Our deterministic and ensemble analyses, including background forecasts, remain at double precision, and so are unaffected.title | CURRENT EVALUATION >> |
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Score cards
The change to single precision is neutral in terms of HRES skill (less than a 0.3% change is typical for the troposphere, and the frequency of statistically significant differences is in line with what one might expect by chance), but there are benefits of the increased levels in the ENS.
The ensemble score card is overwhelmingly positive and statistically significant (occasional negative changes are small in magnitude.) (Score cards to be published.)ENS vertical profile product at 20°S 90°W (VT = 20210123 at 12UTC)
The extra levels mean that sharper inversions can be resolved. For example, the ensemble vertical profile product now uses 34 model levels below 700hPa instead of the previous 22. The 47r2 test profile, which uses the new mapping of model levels, shows little obvious change although the thermal inversion is indeed a little sharper at 47r2. Users will need to ensure that they extract the correct model levels when creating their own forecast products. Over the testing period, the root-mean-square-error of the ensemble-mean T850 is reduced in the subtropics.
ENS vertical profile tephigram product for forecasts started on 20210121 at 0UTC and at lead time 60h, for temperature (red) and moisture (dewpoint, green). Shaded bands denote the minimum, 25th and 75th percentiles and maximum for temperature and dewpoint distributions at each level. The median value is shown by a thin solid line. A thick solid line represents HRES and a thick dashed line represents the Control.
Zonal-mean Temperature bias in Control forecast (day 10)
The extra levels also allow the ENS to better resolve gravity waves in the vertical, and this helps reduce the cold bias in the upper troposphere / lower stratosphere, e.g. by about 33% at day10. This improvement persists into the extended range.
Zonal means of mean temperature errors at a lead time of 10 days in the ensemble control forecast. More saturated colours indicate statistical significance at the 5% level using
New parameters
The table contains the list of parameters expected to be available with the model implementation. They will be available as part of the test data.
Param
ID
Short
Name
Name
Unit
Component
& type
GRIB edition
Level
type
MARS
Added to Catalogue
ecCharts
Dissemination
1
sfc
TBC
aluvpi
UV visible albedo for direct radiation, isotropic component
(0-1)
ENS CF
1
sfc
TBC
aluvpv
UV visible albedo for direct radiation, volumetric component
(0-1)
ENS CF
1
sfc
TBC
aluvpg
UV visible albedo for direct radiation, geometric component
(0-1)
ENS CF
1
sfc
TBC
alnipi
Near IR albedo for direct radiation, isotropic component
(0-1)
ENS CF
1
sfc
TBC
alnipv
Near IR albedo for direct radiation, volumetric component
(0-1)
ENS CF
1
sfc
TBC
alnipg
Near IR albedo for direct radiation, geometric component
(0-1)
ENS CF
1
sfc
TBC
sdfor
Standard deviation of filtered subgrid orography
m
ENS CF 1
1
sfc
TBC
sdor
Standard deviation of orography
-
ENS CF 1
1
sfc
TBC
isor
Anisotropy of sub-gridscale orography
-
ENS CF 1
1
sfc
TBC
anor
Angle of sub-gridscale orography
radians
slor
Slope of sub-gridscale orography
lsrh
Logarithm of surface roughness length for heat
TBC
1 Available at step 0 only.
Changes to existing BUFR parameters
HRES/ENS
Technical information is available at Update to Tropical Cyclone tracks.
Increase of ENS vertical resolution to 137 model levels
With this cycle upgrade the number of vertical model levels in ensemble forecasts (ENS) increases from 91 to 137, bringing it to the same vertical resolution as HRES. The L137 model level definitions and the correspondence between the L91 and L137 model levels are available online. Please note that the L137 model level data cannot be converted back to GRIB edition 1 without the loss of information.
Users getting ENS data on model levels are advised to check their data requests and processing. Getting all model levels, 137 instead of 91, will increase the amount of data by a factor of 1.5. This will affect resources like disc space, array sizes, processing and transfer times. Users should adapt any limits and requirements, e.g. wallclock time, memory, accordingly.
Users getting specific model levels should revise their selection based on the correspondence between the L91 and L137 model levels.
Changes to GRIB encoding
The GRIB model identifiers (generating process identification number) for cycle 47r2 will be changed as follows:
Section 1
Octets
Section 4
Octets
Changes to BUFR encoding.
A new BUFR sequence has been designed to accommodate the new TC information. Technical information is available at:
Update to Tropical Cyclone tracks
Availability of IFS cycle 47r2 test data
The release candidate test data and products will be generated daily, shortly behind operational high resolution and ensemble runs and based on the operational dissemination requirements. The availability of the test data does not follow any strict schedule.
Test data in MARS
IFS Cycle 47r2 release candidate test data will be available from MARS with experiment version 0075 (MARS keyword EXPVER=0075) starting from the 00 UTC on
The data can be accessed in MARS from:
- HRES (class=od, stream=oper, expver=75)
- HRES-WAM (class=od, stream=wave, expver=75)
- ENS (class=od, stream=enfo, expver=75)
- ENS-WAM (class=od, stream=waef, expver=75)
Only registered users of ECMWF computing systems will be able to access the test data sets in MARS. The data should not be used for operational forecasting. Please report any problems you find with this data to Service Desk.
Test data in dissemination
IFS Cycle 47r2 test data from the release candidate stage will be available through the test dissemination system, starting from the 00Z run on . Users with access to ECPDS and the Products Requirements Editor (PREd) can login to the test system at https://ecpds-xmonitor.ecmwf.int/ (or https://msaccess.ecmwf.int:7443) and trigger the transmission of test products in the usual manner. To receive the test products, users have to have their firewall open to the relevant ECPDS Data Movers:
Internet transfers: 193.61.196.104 ( ecpds-xma.ecmwf.int ), 193.61.196.105 ( ecpds-xmb.ecmwf.int ) and 193.61.196.113 ( ecpds-xmc.ecmwf.int )
RMDCN transfers: 136.156.8.132 ( mspds-dm4.ecmwf.int ) and 136.156.8.133 ( mspds-dm5.ecmwf.int )
Access to the test PREd is provided at https://apps.ecmwf.int/webapps/esuite/products/requirements/
The IFS Cycle 47r2 test products are available as version number 75 (file names ending with '75'). The test products are intended to be generated shortly behind real-time. The test products will be based on the operational dissemination requirements from and will be available for HRES, HRES-WAM, ENS, ENS-WAM and ENS extended.
The initial requirements in the test system will in general be identical to the operational requirements. Any model levels specified for ensemble forecasts (ENS) will be replaced by the corresponding levels in the new cycle according to the correspondence between the L91 and L137 model levels, e.g. levelist=1/2/3/4/5 in the operational system will be replaced with levelist=1/2/4/6/7 in the test system. This approach is also applied if all model levels are requested in the operational system, i.e. they will be replaced by the 91 corresponding levels in the new cycle rather than by all 137 levels from the new cycle. Via the test PREd users will be able to test the full range of model levels. Once Cycle 47r2 becomes operational, the same approach is applied, i.e. any specified model levels from the current ensemble forecasts (ENS) will be replaced by the corresponding levels in the new cycle. Any changes made in the test system will not be ported to operations on implementation day. Access to the operational PREd will be closed one day prior to implementation. Any changes to the operational requirements can be implemented one day after implementation.
Please note that in particular changes to the number of model levels will have a significant impact on the requested data volumes.
If you don't have access to the ECPDS system or PREd or should you require any assistance with IFS Cycle 47r2 test dissemination products, please contact Data Services.
Graphical display of IFS cycle 47r2 test data using ecCharts
The IFS cycle 47r2 layers will become gradually available in ecCharts with the aim to have the complete set of layers in the release candidate mode one month before implementation. Cycle 47r2 layers are identified by the label "0075" in their title and a black border around test data layers for better visual identification.
Web charts based on IFS cycle 47r2 test data
The ENS meteograms based on IFS cycle 47r2 test data will become gradually available with the aim to produce them in release candidate mode one month before implementation. They can be viewed by selecting the "IFS cycle 47r2" model run in the ENS meteograms interface.
WMO Essential and Additional test data
IFS cycle 47r2 WMO Essential test data starting from the 00Z run on is available at ftp://wmo:essential@xpds.ecmwf.int and WMO Additional test data at ftp://xpds.ecmwf.int using the relevant WMO user id and password.
Time-critical applications
Option 1 - simple time-critical jobs
Member State users of the "Simple time-critical jobs" framework can test that their scripts will work with the IFS Cycle 47r2 test data by using the limited ECaccess 'events' set up for this purpose:
For these events, MSJ_EXPVER environment variable is set to 0075 and can be used to specify the IFS Cycle 47r2 test data in any MARS retrievals.
These events are intended for testing technical aspects only and should not be used for Time Critical activities.
Options 2 and 3
Option 2 or 3 time-critical applications can be tested with theIFS Cycle 47r2 test data retrieved from MARS or received in Dissemination.ResourcesHTML |
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