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namelist parameter: raytay0 = 5.0 (default starting with v1). This appears to be in units of 1/days (so a damping timescale of 5 days)
Algorithm?

Laplacian smoothing:

namelist parameter: nu_top
Laplacian smoothing applied at the model top with coefficient nu_top*nu_top_scale(k)
preqx dycore (EAM v0,v1). Sponge layer modeled after that used by CAM-EUL
- nu_top=2.5e5
- nu_top_scale(1:nlev)=4,2,1,0,0,0….. (applied in top 3 model layers)
- Laplacian term added to RHS of hyperviscosity operator
Theta dycore (EAM v2, v3, SCREAM). Sponge layer modeled after CAM-FV ( Lauritzen et al., https://doi.org/10.1177/1094342011410088 )
- nu_top = Resolution dependent. See https://acme-climate.atlassian.net/wiki/spaces/DOC/pages/1044644202/EAM+s+HOMME+dycore
- Laplacian term applied independently from hyperviscosity, and with it’s own timestep controlled by hypervis_subcycle_tom. Default 1.
- nu_top_scale(:) uses reference pressure based formula
- Formula in terms of reference pressure computed from “eta” coordinate:
  - p_ratio = eta(1)/eta(k)
  - nu_top_scale = 16*( 1 ./ ( 1 + (p_ratio)^-2)). (mathematically equivalent to the 8*(1+ tanh(log(p_ratio))) formula used in CAM-FV)
  - where (nu_top_scale>8) nu_top_scale=8
  - where (nu_top_scale<0.15) nu_top_scale=0
- This formula creates a sponge layer that is active from [ptop/10,ptop]. For EAM’s 72L and 80L configuration, ptop=0.1 mb (~60 km), meaning that the sponge layer starts at 1mb which might be too high. For SCREAM’s L128 configuration, ptop=2mb, so the sponge layer starts an 20mb, which might be too low. At NE256 and 72L, the model is unstable in the sponge layer.
Simplified New simplified option with namelist control over sponge layer thickness:
- To address the instabilities seen at high resolution, we propose to add EAM v3 includes a new sponge layer option controlled by namelist variable tom_sponge_start, specified in mb
- tom_sponge_start>0 will replace the default with a simplified version of the above formula that makes it easy to control the sponge layer thickness:
  https://github.com/mt5555/E3SM/tree/
  - p_ratio = (tom_sponge_start/100) / eta(k)
  - nu_top_scale = .15 * p_ratio^2
  git branch:
  - tom_sponge_start=1.0 reproduces the E3SMv2 72L sponger layer. tom_sponge_start=20 reproduces the SCREAM 128L

Plots of the CAM-FV / EAMv2 sponge layer profile:

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Some aqua planet experiments looking at zonal wind and EKE at model top: /wiki/spaces/NGDNA/pages/1060077843
At NE256 (and probably higher) with EAM’s 72L configuration, the model is unstable and the sponge layer needs to be larger (but not stronger):
- /wiki/spaces/NGDNA/pages/2939191303
- /wiki/spaces/NGDNA/pages/1725071379

atm.log.* output:

EAM V3 80L configuration, Reference pressure for the first 12 levels:

1st column: interface pressure (mb)
2nd column: midpoint pressure (mb)
columns 3-6: A and B hybrid coordinate info

Code Block

Layer Locations (*1000) 
   1    0.1000              0.0000              0.1000
                  0.1236              0.0000              0.1236
   2    0.1472              0.0000              0.1472
                  0.1819              0.0000              0.1819
   3    0.2166              0.0000              0.2166
                  0.2674              0.0000              0.2674
   4    0.3183              0.0000              0.3183
                  0.3924              0.0000              0.3924
   5    0.4665              0.0000              0.4665
                  0.5740              0.0000              0.5740
   6    0.6814              0.0000              0.6814
                  0.8358              0.0000              0.8358
   7    0.9902              0.0000              0.9902
                  1.2093              0.0000              1.2093
   8    1.4284              0.0000              1.4284
                  1.7344              0.0000              1.7344
   9    2.0405              0.0000              2.0405
                  2.4590              0.0000              2.4590
  10    2.8776              0.0000              2.8776
                  3.4356              0.0000              3.4356
  11    3.9936              0.0000              3.9936
                  4.7150              0.0000              4.7150
  12    5.4364              0.0000              5.4364
                  6.3372              0.0000              6.3372

V3 default sponge layer with EAM’s 80L configuration, as a function of model level k

Code Block

sponge layer nu_top viscosity scaling factor
   nu_scale_top            1   6.32916693361379     
   nu_scale_top            2   3.71290112422668     
   nu_scale_top            3   1.96275667155077     
   nu_scale_top            4  0.975836740648787     
   nu_scale_top            5  0.471377418464948     
   nu_scale_top            6  0.225813746829097

EAM’s 72L configuration, Reference pressure for the first 6 levels:
1st column: interface pressure (Pa)
2nd column: midpoint pressure (Pa)
3rd column: layer thickness:

Code Block
1 10.0000 12.3825 4.7651 2 14.7651 18.2829 7.0357 3 21.8008 26.9949 10.3882 4 32.1890 39.8582 15.3383 5 47.5273 58.8509 22.6472 6 70.1745 86.8939 33.4387

V2 sponge layer with EAM’s 72L configuration, as a function of model level k

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Code Block

  nu_scale_top            1   8.00000000000000
   nu_scale_top            2   8.00000000000000
   nu_scale_top            3   8.00000000000000
   nu_scale_top            4   8.00000000000000
   nu_scale_top            5   8.00000000000000
   nu_scale_top            6   4.96653062623658
   nu_scale_top            7   2.27814520652286
   nu_scale_top            8   1.04498410914579
   nu_scale_top            9  0.479333707632238
   nu_scale_top           10  0.21987014085820321987014085820

SCREAM's 128L configuration:

V2 sponge layer with SCREAM’s 128L configuration, as a function of model level k

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Versions Compared

Old Version 7

New Version Current

Key

Laplacian smoothing:

Plots of the CAM-FV / EAMv2 sponge layer profile:

atm.log.* output: