A Global Atmospheric Model. Joe Tribbia NCAR Turbulence Summer School July 2008
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1 A Global Atmospheric Model Joe Tribbia NCAR Turbulence Summer School July 2008
2 Outline Broad overview of what is in a global climate/weather model of the atmosphere Spectral dynamical core Some results-climate and global NWP End of era- why and what s next?
3 Atmosphere in Coupled Climate System Model
4 Dynamic equations in vorticity divergence form where
5 Atmospheric model = dynamics+physics
6 Horizontal Discretization
7
8 What is in dynamics? (CFD actually VLES) * 3. Dynamics o 3.1 Eulerian Dynamical Core Generalized terrain-following vertical coordinates Conversion to final form Continuous equations using $\partial\ln(\pi)/\partial t$ Semi-implicit formulation Energy conservation Horizontal diffusion Finite difference equations Time filter Spectral transform Spectral algorithm overview Combination of terms Transformation to spectral space Solution of semi-implicit equations Horizontal diffusion Initial divergence damping Transformation from spectral to physical space Horizontal diffusion correction Semi-Lagrangian Tracer Transport Mass fixers Energy Fixer Statistics Calculations Reduced grid
9 What is in moist physics? * 4. Model Physics o 4.1 Deep Convection Updraft Ensemble Downdraft Ensemble Closure Numerical Approximations Deep Convective Tracer Transport o 4.2 Shallow/Middle Tropospheric Moist Convection o 4.3 Evaporation of convective precipitation o 4.4 Conversion to and from dry and wet mixing ratios for trace constituents in the model o 4.5 Prognostic Condensate and Precipitation Parameterization Introductory comments Description of the macroscale component Description of the microscale component o 4.6 Dry Adiabatic Adjustment
10 What is in SW radiation physics and clouds? o 4.7 Parameterization of Cloud Fraction o 4.8 Parameterization of Shortwave Radiation Diurnal cycle Formulation of shortwave solution Aerosol properties and optics # Introduction # Description of aerosol climatologies and data sets # Calculation of aerosol optical properties # Calculation of aerosol shortwave effects and radiative forcing # Globally uniform background sulfate aerosol Cloud Optical Properties # Parameterization of effective radius # Dependencies involving effective radius Cloud vertical overlap # Conversion of cloud amounts to binary cloud profiles # Maximum-random overlap assumption # Low, medium and high cloud overlap assumptions # Computation of fluxes and heating rates with overlap $ \delta $-Eddington solution for a single layer Combination of layers Acceleration of the adding method in all-sky calculations Methods for reducing the number of binary cloud configurations Computation of shortwave fluxes and heating rates
11 What is in LW radiation and PBL? o 4.9 Parameterization of Longwave Radiation Major absorbers Water vapor Trace gas parameterizations Mixing ratio of trace gases Cloud emissivity Numerical algorithms and cloud overlap o 4.10 Surface Exchange Formulations Land # Roughness lengths and zero-plane displacement # Monin-Obukhov similarity theory Ocean Sea Ice o 4.11 Vertical Diffusion and Boundary Layer Processes Free atmosphere turbulent diffusivities ``Non-local'' atmospheric boundary layer scheme
12 At current climate resolutions most physics is subgrid scale
13 Spectral dynamics-what and why
14 NO SPATIAL TRUNCATION ERROR = NO FALSE DISPERSION
15 Non-uniform Advection [U=U(x,t)]
16
17 On the sphere use the natural basis-avoids polar singularity
18 Fourier series in longitude and associated Legendre functions in latitude
19 FFT in longitude Gaussian quadrature in latitude
20
21
22
23 For nonlinear terms grid to spectral: FFT then Legendre
24 Latitudinal derivatives need care
25
26
27 TWO-TIME LEVEL THREE-TIME LEVEL
28 Staying power of spectral dynamical core
29
30 Calibrate with 20 th century and test hypotheses
31 Climate results for coupled system
32
33 Prediction is an initial value problem How do we get Initial Conditions?
34 Observations for prediction: radiosondes
35 Observations for prediction: satellite radiances
36 Observations for prediction: satellite radiances
37 Data Assimilation: A Bayesian perspective Bayes theorem relates conditional probabilities Denominator is normalization p(x y) ~ product of probability densities p( x p( y) p( x y) y) p( y x) p( x) p( y) p( y x) p( x) dx p( y x) p( x) For use in data assimilation framework think of RHS as product of the pdf of the prior p(x) times the pdf of the probability of an observation y given the prior x LHS is then the probability of the state x given an obs y NB:If RHS is product of Gaussian pdf s LHS Gaussian
38 Example: Ensemble Kalman Filtering Standard KF is prohibitively expensive because covariance prediction is NxN. Ensemble prediction methods successfully predict forecast uncertainty. Use ensemble to predict the covariance. Step 1: Estimate mean and covariance using forecast ensemble x C 1 N N k 1 1 N 1 x k N k 1 ( x k x)( x k x) T C P f
39 Example:EnKF Step2: Make an observation y=h(x) Simplest example is a single observation e.g. H=(1 0) in two dimensions. Use ensemble correlations to regress changes in x. Step 3: Multiply pdf s and compute posterior distribution Step 4: Adjust ensemble Step 5: Gaussian: mean= most likely state
40 Improvement in forecast skill due to advances in modeling AND data assimilation techniques
41 Ensemble forecasting Success European Storm of the Century Lothar 12/24/99 Ensemble prediction gives hint of storm
42 The Future (massively parallel): HOMME High-Order Methods Modeling Environment Spectral elements, Continuous or discontinuous Galerkin on cube sphere Explicit or semi-implicit time integration Proven highly scalable on MP systems O(90000) cpus Vertical discretization: finite-difference (CAM) Current FV core also a candidate
43 Avoid global communication and pole problem with cubed sphere Equiangular projection Sadourny (72), Rancic (96), Ronchi (96) Some models moving towards this approach Metric tensor Rewrite div and vorticity
44 Taylor s result HOMME Dycore Aquaplanet simulation 1/8 deg Scaling on 96,000 processors
45 Observations and ECMWF Nastrom Gage spectrum ECMWF spectrum day 10 Standard Model T799 With Stochastic CA forcing Observations
46 Current version of CAM has finite volume discretization-moving cubed sphere EULERIAN SPECTRAL FINITE VOLUME
47 The End Questions?
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