ARTS
2.0.49
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An absorption lookup table. More...
#include <gas_abs_lookup.h>
Public Member Functions | |
GasAbsLookup () | |
void | Adapt (const ArrayOfArrayOfSpeciesTag ¤t_species, ConstVectorView current_f_grid, const Verbosity &verbosity) |
Adapt lookup table to current calculation. More... | |
void | Extract (Matrix &sga, const Index &p_interp_order, const Index &t_interp_order, const Index &h2o_interp_order, const Index &f_index, const Numeric &p, const Numeric &T, ConstVectorView abs_vmrs) const |
Extract scalar gas absorption coefficients from the lookup table. More... | |
const Vector & | GetFgrid () const |
const Vector & | GetPgrid () const |
Private Attributes | |
ArrayOfArrayOfSpeciesTag | species |
The species tags for which the table is valid. More... | |
ArrayOfIndex | nonlinear_species |
The species tags with non-linear treatment. More... | |
Vector | f_grid |
The frequency grid [Hz]. More... | |
Vector | p_grid |
The pressure grid for the table [Pa]. More... | |
Vector | log_p_grid |
The natural log of the pressure grid. More... | |
Matrix | vmrs_ref |
The reference VMR profiles. More... | |
Vector | t_ref |
The reference temperature profile [K]. More... | |
Vector | t_pert |
The vector of temperature perturbations [K]. More... | |
Vector | nls_pert |
The vector of perturbations for the VMRs of the nonlinear species. More... | |
Tensor4 | xsec |
Absorption cross sections. More... | |
Friends | |
void | xml_read_from_stream (istream &is_xml, GasAbsLookup &gal, bifstream *pbifs, const Verbosity &verbosity) |
Reads GasAbsLookup from XML input stream. More... | |
void | xml_write_to_stream (ostream &os_xml, const GasAbsLookup &gal, bofstream *pbofs, const String &name, const Verbosity &verbosity) |
Writes GasAbsLookup to XML output stream. More... | |
void | abs_lookupCreate (GasAbsLookup &abs_lookup, Index &abs_lookup_is_adapted, const ArrayOfArrayOfSpeciesTag &abs_species, const ArrayOfArrayOfLineRecord &abs_lines_per_species, const ArrayOfLineshapeSpec &abs_lineshape, const ArrayOfArrayOfSpeciesTag &abs_nls, const Vector &f_grid, const Vector &abs_p, const Matrix &abs_vmrs, const Vector &abs_t, const Vector &abs_t_pert, const Vector &abs_nls_pert, const Vector &abs_n2, const ArrayOfString &abs_cont_names, const ArrayOfString &abs_cont_models, const ArrayOfVector &abs_cont_parameters, const Verbosity &verbosity) |
WORKSPACE METHOD: abs_lookupCreate. More... | |
Numeric | calc_lookup_error (const GasAbsLookup &al, const Index &abs_p_interp_order, const Index &abs_t_interp_order, const Index &abs_nls_interp_order, const bool ignore_errors, const Vector &abs_n2, const ArrayOfArrayOfLineRecord &abs_lines_per_species, const ArrayOfLineshapeSpec &abs_lineshape, const ArrayOfString &abs_cont_names, const ArrayOfString &abs_cont_models, const ArrayOfVector &abs_cont_parameters, const Numeric &local_p, const Numeric &local_t, const Vector &local_vmrs, const Verbosity &verbosity) |
Compare lookup and LBL calculation. More... | |
void | abs_lookupTestAccuracy (const GasAbsLookup &abs_lookup, const Index &abs_lookup_is_adapted, const Index &abs_p_interp_order, const Index &abs_t_interp_order, const Index &abs_nls_interp_order, const Vector &abs_n2, const ArrayOfArrayOfLineRecord &abs_lines_per_species, const ArrayOfLineshapeSpec &abs_lineshape, const ArrayOfString &abs_cont_names, const ArrayOfString &abs_cont_models, const ArrayOfVector &abs_cont_parameters, const Verbosity &verbosity) |
WORKSPACE METHOD: abs_lookupTestAccuracy. More... | |
void | abs_lookupTestAccMC (const GasAbsLookup &abs_lookup, const Index &abs_lookup_is_adapted, const Index &abs_p_interp_order, const Index &abs_t_interp_order, const Index &abs_nls_interp_order, const Vector &abs_n2, const ArrayOfArrayOfLineRecord &abs_lines_per_species, const ArrayOfLineshapeSpec &abs_lineshape, const ArrayOfString &abs_cont_names, const ArrayOfString &abs_cont_models, const ArrayOfVector &abs_cont_parameters, const Index &mc_seed, const Verbosity &verbosity) |
WORKSPACE METHOD: abs_lookupTestAccMC. More... | |
An absorption lookup table.
This class holds an absorption lookup table, as well as all information that is necessary to use the table to extract absorption. Extraction routines are implemented as member functions.
Definition at line 44 of file gas_abs_lookup.h.
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Definition at line 46 of file gas_abs_lookup.h.
void GasAbsLookup::Adapt | ( | const ArrayOfArrayOfSpeciesTag & | current_species, |
ConstVectorView | current_f_grid, | ||
const Verbosity & | verbosity | ||
) |
Adapt lookup table to current calculation.
This method has the following tasks:
The method is intended to be called only once per ARTS job, more or less directly from a corresponding workspace method. Therefore, runtime errors are thrown, rather than assertions, if something is wrong.
current_species | The list of species for the current calculation. |
current_f_grid | The list of frequencies for the current calculation. |
Definition at line 120 of file gas_abs_lookup.cc.
References chk_contains(), chk_if_decreasing(), chk_if_in_range(), chk_if_increasing(), chk_matrix_ncols(), chk_matrix_nrows(), chk_size(), chk_vector_length(), CREATE_OUT2, CREATE_OUT3, f_grid, find_new_grid_in_old_grid(), get_tag_group_name(), is_unique(), joker, log_p_grid, ConstTensor4View::nbooks(), ConstTensor4View::ncols(), Array< base >::nelem(), ConstVectorView::nelem(), nls_pert, nonlinear_species, p_grid, Tensor4::resize(), Vector::resize(), Matrix::resize(), species, t_pert, t_ref, transform(), vmrs_ref, and xsec.
Referenced by abs_lookupAdapt().
void GasAbsLookup::Extract | ( | Matrix & | sga, |
const Index & | p_interp_order, | ||
const Index & | t_interp_order, | ||
const Index & | h2o_interp_order, | ||
const Index & | f_index, | ||
const Numeric & | p, | ||
const Numeric & | T, | ||
ConstVectorView | abs_vmrs | ||
) | const |
Extract scalar gas absorption coefficients from the lookup table.
This carries out a simple interpolation in temperature and pressure. The interpolated value is then scaled by the ratio between actual VMR and reference VMR. In the case of nonlinear species the interpolation goes also over H2O VMR.
All input parameters (f_index, p, T, VMRs for non-linear species) must be in the range coverd by the table. Violation will result in a runtime error. Those checks are here, because they are a bit difficult to make outside, due to the irregularity of the grids. Otherwise there are no runtime checks in this function, only assertions. This is, because the function is called many times inside the RT calculation.
In this case pressure is not an altitude coordinate, so we are free to choose the type of interpolation that gives lowest interpolation errors or is easiest. I tested both linear and log p interpolation with the result that log p interpolation is slightly better, so that is used.
sga | A Matrix with scalar gas absorption coefficients [1/m]. Dimension is adjusted automatically to either [1,n_species] or [n_f_grid,n_species]! |
f_index | The frequency index. If this is >=0, it means that absorption for this frequency will be extracted. (The leading dimension of sga will be 1.) If this is <0, it means that absorption for ALL frequencies is extracted. (The leading dimension of sga will be n_f_grid.) |
p | The pressures [Pa]. |
T | The temperature [K]. |
abs_vmrs | The VMRs [absolute number]. Dimension: [species]. |
Definition at line 517 of file gas_abs_lookup.cc.
References DEBUG_ONLY, f_grid, find_first_species_tg(), gridpos_poly(), interpweights(), is_size(), joker, log_p_grid, Array< base >::nelem(), ConstVectorView::nelem(), nls_pert, nonlinear_species, ConstTensor4View::npages(), number_density(), p_grid, Vector::resize(), Tensor3::resize(), Matrix::resize(), species, species_index_from_species_name(), t_pert, t_ref, vmrs_ref, and xsec.
Referenced by abs_scalar_gasExtractFromLookup(), and calc_lookup_error().
const Vector & GasAbsLookup::GetFgrid | ( | ) | const |
Definition at line 1066 of file gas_abs_lookup.cc.
References f_grid.
Referenced by abs_scalar_gasExtractFromLookup(), and f_gridFromGasAbsLookup().
const Vector & GasAbsLookup::GetPgrid | ( | ) | const |
Definition at line 1072 of file gas_abs_lookup.cc.
References p_grid.
Referenced by p_gridFromGasAbsLookup().
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WORKSPACE METHOD: abs_lookupCreate.
Creates a gas absorption lookup table.
The lookup table stores absorption cross-sections as a function of pressure. Additionally, absorption can be stored as a function of temperature for temperature perturbations from a reference profile.
Additionally, absorption can be stored as a function of water vapor VMR perturbations from a reference profile. The variable abs_nls specifies, for which species water vapor perturbations should be generated.
Note, that the absorbing gas can be any gas, but the perturbing gas is always H2O.
In contrast to other absorption functions, this method does not use the input variable abs_h2o. This is because abs_h2o has to be set interally to allow perturbations. If there are more than one H2O species, the first is assumed to be the main one.
[out] | abs_lookup | WS Output |
[out] | abs_lookup_is_adapted | WS Output |
[in] | abs_species | WS Input |
[in] | abs_lines_per_species | WS Input |
[in] | abs_lineshape | WS Input |
[in] | abs_nls | WS Input |
[in] | f_grid | WS Input |
[in] | abs_p | WS Input |
[in] | abs_vmrs | WS Input |
[in] | abs_t | WS Input |
[in] | abs_t_pert | WS Input |
[in] | abs_nls_pert | WS Input |
[in] | abs_n2 | WS Input |
[in] | abs_cont_names | WS Input |
[in] | abs_cont_models | WS Input |
[in] | abs_cont_parameters | WS Input |
Definition at line 60 of file m_abs_lookup.cc.
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WORKSPACE METHOD: abs_lookupTestAccMC.
Test accuracy of absorption lookup table with Monte Carlo Algorithm.
Explicitly compare absorption from the lookup table with line-by-line calculations for random conditions.
The quantities returned are the mean value and standard deviation of the absolute value of the relative error in percent. The relative error itself is computed for a large number of cases (pressure, temperature, and H2O VMR combinations). In the frequency dimension the maximum value is taken for each case.
Produces no workspace output, only output to the output streams.
[in] | abs_lookup | WS Input |
[in] | abs_lookup_is_adapted | WS Input |
[in] | abs_p_interp_order | WS Input |
[in] | abs_t_interp_order | WS Input |
[in] | abs_nls_interp_order | WS Input |
[in] | abs_n2 | WS Input |
[in] | abs_lines_per_species | WS Input |
[in] | abs_lineshape | WS Input |
[in] | abs_cont_names | WS Input |
[in] | abs_cont_models | WS Input |
[in] | abs_cont_parameters | WS Input |
[in] | mc_seed | WS Input |
Definition at line 2858 of file m_abs_lookup.cc.
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WORKSPACE METHOD: abs_lookupTestAccuracy.
Test accuracy of absorption lookup table.
Explicitly compare absorption from the lookup table with line-by-line calculations for strategically selected conditions (in-between the lookup table grid points).
For error units see abs_lookupTestAccMC
Produces no workspace output, only output to the output streams.
[in] | abs_lookup | WS Input |
[in] | abs_lookup_is_adapted | WS Input |
[in] | abs_p_interp_order | WS Input |
[in] | abs_t_interp_order | WS Input |
[in] | abs_nls_interp_order | WS Input |
[in] | abs_n2 | WS Input |
[in] | abs_lines_per_species | WS Input |
[in] | abs_lineshape | WS Input |
[in] | abs_cont_names | WS Input |
[in] | abs_cont_models | WS Input |
[in] | abs_cont_parameters | WS Input |
Definition at line 2472 of file m_abs_lookup.cc.
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Compare lookup and LBL calculation.
This is a helper function used by abs_lookupTestAccuracy. It takes local p, T, and VMR conditions, performs lookup table extraction and line by line absorption calculation, and compares the difference.
al | Lookup table |
abs_p_interp_order | Pressure interpolation order. |
abs_t_interp_order | Temperature interpolation order. |
abs_nls_interp_order | H2O interpolation order. |
ignore_errors | If true, we ignore runtime errors in lookup table extraction. This is handy, because in some cases it is not easy to make sure that all local conditions are inside the valid range for the lookup table. |
local_p | |
local_t | |
local_vmrs |
Definition at line 2358 of file m_abs_lookup.cc.
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Reads GasAbsLookup from XML input stream.
is_xml | XML Input stream |
gal | GasAbsLookup return value |
pbifs | Pointer to binary input stream. NULL in case of ASCII file. |
Definition at line 58 of file xml_io_compound_types.cc.
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Writes GasAbsLookup to XML output stream.
os_xml | XML Output stream |
gal | GasAbsLookup |
pbofs | Pointer to binary file stream. NULL for ASCII output. |
name | Optional name attribute |
Definition at line 90 of file xml_io_compound_types.cc.
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The frequency grid [Hz].
Must be sorted in ascending order.
Definition at line 171 of file gas_abs_lookup.h.
Referenced by Adapt(), calc_lookup_error(), Extract(), GetFgrid(), xml_read_from_stream(), and xml_write_to_stream().
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The natural log of the pressure grid.
This is not stored with the table, it is calculated by the abs_lookupAdapt method.
We are interpolating the cross sections in log(p). Storing this with the table avoids having to calculate it over and over again.
Definition at line 183 of file gas_abs_lookup.h.
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The vector of perturbations for the VMRs of the nonlinear species.
These apply to all the species that have been set as nonlinear_species.
Fractional units are used! Example: [0,.5,1,10,100], meaning from VMR 0 to 100 times the profile given in abs_vmrs. The reference value should normally be included, hence nls_pert should always include the value 1.
If nonlinear_species is an empty vector, it means that there are no nonlinear species. Then nls_pert must also be an empty vector.
Definition at line 227 of file gas_abs_lookup.h.
Referenced by Adapt(), Extract(), xml_read_from_stream(), and xml_write_to_stream().
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The species tags with non-linear treatment.
This is the list of species for which the H2O VMR should be varied when calculating the lookup
table. This must be inside the range of species. If nonlinear_species is an empty vector, it means that all species should be treated linearly. (No absorption for perturbed species profiles is stored.)
Definition at line 167 of file gas_abs_lookup.h.
Referenced by Adapt(), Extract(), xml_read_from_stream(), and xml_write_to_stream().
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The pressure grid for the table [Pa].
Must be sorted in decreasing order.
Definition at line 175 of file gas_abs_lookup.h.
Referenced by Adapt(), Extract(), GetPgrid(), xml_read_from_stream(), and xml_write_to_stream().
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The species tags for which the table is valid.
Definition at line 158 of file gas_abs_lookup.h.
Referenced by Adapt(), calc_lookup_error(), Extract(), xml_read_from_stream(), and xml_write_to_stream().
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The vector of temperature perturbations [K].
This can have any number of elements. Example: [-20,-10,0,10,20]. The actual temperatures for which absorption is stored are t_ref + t_pert for each level. The reference temperature itself should normally also be included, hence t_pert should always include 0. Must be sorted in ascending order!
The vector t_pert may be an empty vector (nelem()=0), which marks the special case that no interpolation in temperature should be done. If t_pert is not empty, you will get an error message if you try to extract absorption for temperatures outside the range of t_pert.
Definition at line 212 of file gas_abs_lookup.h.
Referenced by Adapt(), Extract(), xml_read_from_stream(), and xml_write_to_stream().
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The reference temperature profile [K].
This is a temperature profile. The dimension must be the same as p_grid.
Definition at line 198 of file gas_abs_lookup.h.
Referenced by Adapt(), Extract(), xml_read_from_stream(), and xml_write_to_stream().
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The reference VMR profiles.
The VMRs for all species, associated with p_grid. Dimension: [n_species, n_p_grid]. These VMRs are needed to scale the absorption coefficient to other VMRs. We are never working with "absorption cross-sections", always with real absorption coefficients, so we have to remember the associated VMR values.
Physical unit: Absolute value.
Definition at line 193 of file gas_abs_lookup.h.
Referenced by Adapt(), Extract(), xml_read_from_stream(), and xml_write_to_stream().
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Absorption cross sections.
Physical unit: m^2
Dimension: [ a, b, c, d ]
Simplest case (no temperature perturbations, no vmr perturbations):
a = 1
b = n_species
c = n_f_grid
d = n_p_grid
Standard case (temperature perturbations, but no vmr perturbations):
a = n_t_pert
b = n_species
c = n_f_grid
d = n_p_grid
Full case (with temperature perturbations and vmr perturbations):
a = n_t_pert
b = n_species + n_nonlinear_species * ( n_nls_pert - 1 )
c = n_f_grid
d = n_p_grid
Note that the last three dimensions are identical to the dimensions of abs_per_tg in ARTS-1-0. This should simplify computation of the lookup table with this old ARTS version.
Definition at line 261 of file gas_abs_lookup.h.
Referenced by Adapt(), Extract(), xml_read_from_stream(), and xml_write_to_stream().