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Once the model file is written, Dynare is invoked using the
dynare
command at the MATLAB or Octave prompt (with the filename
of the ‘.mod’ given as argument).
In practice, the handling of the model file is done in two steps: in the
first one, the model and the processing instructions written by the user
in a model file are interpreted and the proper MATLAB or GNU
Octave instructions are generated; in the second step, the program
actually runs the computations. Both steps are triggered automatically
by the dynare
command.
Description
This command launches Dynare and executes the instructions included in ‘FILENAME.mod’. This user-supplied file contains the model and the processing instructions, as described in The Model file.
dynare
begins by launching the preprocessor on the ‘.mod’
file. By default (unless use_dll
option has been given to
model
), the preprocessor creates three intermediary files:
Contains variable declarations, and computing tasks
Contains the dynamic model equations. Note that Dynare might introduce auxiliary equations and variables (see section Auxiliary variables). Outputs are the residuals of the dynamic model equations in the order the equations were declared and the Jacobian of the dynamic model equations. For higher order approximations also the Hessian and the third-order derivatives are provided. When computing the Jacobian of the dynamic model, the order of the endogenous variables in the columns is stored in M_.lead_lag_incidence
. The rows of this matrix represent time periods: the first row denotes a lagged (time t-1) variable, the second row a contemporaneous (time t) variable, and the third row a leaded (time t+1) variable. The columns of the matrix represent the endogenous variables in their order of declaration. A zero in the matrix means that this endogenous does not appear in the model in this time period. The value in the M_.lead_lag_incidence
matrix corresponds to the column of that variable in the Jacobian of the dynamic model. Example: Let the second declared variable be c
and the (3,2)
entry of M_.lead_lag_incidence
be 15
. Then the 15
th column of the Jacobian is the derivative with respect to c(+1)
.
Contains the long run static model equations. Note that Dynare might introduce auxiliary equations and variables (see section Auxiliary variables). Outputs are the residuals of the static model equations in the order the equations were declared and the Jacobian of the static equations. Entry (i,j)
of the Jacobian represents the derivative of the i
th static model equation with respect to the j
th model variable in declaration order.
These files may be looked at to understand errors reported at the simulation stage.
dynare
will then run the computing tasks by executing ‘FILENAME.m’.
A few words of warning is warranted here: the filename of the ‘.mod’ file should be chosen in such a way that the generated ‘.m’ files described above do not conflict with ‘.m’ files provided by MATLAB/Octave or by Dynare. Not respecting this rule could cause crashes or unexpected behaviour. In particular, it means that the ‘.mod’ file cannot be given the name of a MATLAB/Octave or Dynare command. Under Octave, it also means that the ‘.mod’ file cannot be named ‘test.mod’.
Options
noclearall
By default, dynare
will issue a clear all
command to
MATLAB (<R2015b) or Octave, thereby deleting all workspace variables and
functions; this option instructs dynare
not to clear the
workspace. Note that starting with Matlab 2015b dynare
only
deletes the global variables and the functions using persistent
variables, in order to benefit from the JIT (Just In Time)
compilation. In this case the option instructs dynare
not to
clear the globals and functions.
onlyclearglobals
By default, dynare
will issue a clear all
command to
MATLAB versions before 2015b and to Octave, thereby deleting all workspace variables; this
option instructs dynare
to clear only the global variables
(i.e. M_
, options_
, oo_
,
estim_params_
, bayestopt_
, and dataset_
), leaving
the other variables in the workspace.
debug
Instructs the preprocessor to write some debugging information about the scanning and parsing of the ‘.mod’ file
notmpterms
Instructs the preprocessor to omit temporary terms in the static and dynamic files; this generally decreases performance, but is used for debugging purposes since it makes the static and dynamic files more readable
savemacro[=FILENAME]
Instructs dynare
to save the intermediary file which is obtained
after macro-processing (see section Macro-processing language); the saved
output will go in the file specified, or if no file is specified in
‘FILENAME-macroexp.mod’
onlymacro
Instructs the preprocessor to only perform the macro-processing step, and stop just after. Mainly useful for debugging purposes or for using the macro-processor independently of the rest of Dynare toolbox.
nolinemacro
Instructs the macro-preprocessor to omit line numbering information in
the intermediary ‘.mod’ file created after the macro-processing
step. Useful in conjunction with savemacro
when one wants that to
reuse the intermediary ‘.mod’ file, without having it cluttered by
line numbering directives.
nolog
Instructs Dynare to no create a logfile of this run in ‘FILENAME.log’. The default is to create the logfile.
params_derivs_order=0|1|2
When identification, dynare_sensitivity (with identification), or
estimation_cmd are present, this option is used to limit the order of the
derivatives with respect to the parameters that are calculated by the
preprocessor. 0
means no derivatives, 1
means first derivatives,
and 2
means second derivatives. Default: 2
nowarn
Suppresses all warnings.
warn_uninit
Display a warning for each variable or parameter which is not initialized. See section Parameter initialization, or load_params_and_steady_state for initialization of parameters. See section Initial and terminal conditions, or load_params_and_steady_state for initialization of endogenous and exogenous variables.
console
Activate console mode. In addition to the behavior of
nodisplay
, Dynare will not use graphical waitbars for long
computations.
nograph
Activate the nograph
option (see nograph), so that Dynare will not produce any
graph
nointeractive
nopathchange
By default Dynare will change Matlab/Octave’s path if
‘dynare/matlab’ directory is not on top and if Dynare’s routines
are overriden by routines provided in other toolboxes. If one wishes to
override Dynare’s routines, the nopathchange
options can be
used. Alternatively, the path can be temporarly modified by the user at
the top of the ‘*.mod’ file (using Matlab/Octave’s addpath
command).
mingw
Tells Dynare that your MATLAB is configured for compiling MEX files with the
MinGW-compiler from TDM-GCC (see section Compiler installation). This option is
only available under Windows, and is used in conjunction with
use_dll
.
msvc
Tells Dynare that your MATLAB is configured for compiling MEX files with
Microsoft Visual C++ (see section Compiler installation). This option is
only available under Windows, and is used in conjunction with
use_dll
.
cygwin
Tells Dynare that your MATLAB is configured for compiling MEX files with
Cygwin (see section Compiler installation). This option is only available
under Windows, and is used in conjunction with use_dll
.
parallel[=CLUSTER_NAME]
Tells Dynare to perform computations in parallel. If CLUSTER_NAME is passed, Dynare will use the specified cluster to perform parallel computations. Otherwise, Dynare will use the first cluster specified in the configuration file. See section The Configuration File, for more information about the configuration file.
conffile=FILENAME
Specifies the location of the configuration file if it differs from the default. See section The Configuration File, for more information about the configuration file and its default location.
parallel_slave_open_mode
Instructs Dynare to leave the connection to the slave node open after computation is complete, closing this connection only when Dynare finishes processing.
parallel_test
Tests the parallel setup specified in the configuration file without executing the ‘.mod’ file. See section The Configuration File, for more information about the configuration file.
-DMACRO_VARIABLE=MACRO_EXPRESSION
Defines a macro-variable from the command line (the same effect as using
the Macro directive @#define
in a model file, see section Macro-processing language).
-I<<path>>
Defines a path to search for files to be included by the
macroprocessor (using the @#include command). Multiple
-I
flags can be passed on the command line. The paths will be
searched in the order that the -I
flags are passed and the
first matching file will be used. The flags passed here take priority
over those passed to @#includepath.
nostrict
Allows Dynare to issue a warning and continue processing when
initval
or endval
model
block
fast
Only useful with model option use_dll
. Don’t recompile the MEX
files when running again the same model file and the lists of variables
and the equations haven’t changed. We use a 32 bit checksum, stored in
<model filename>/checksum
. There is a very small probability that
the preprocessor misses a change in the model. In case of doubt, re-run
without the fast
option.
minimal_workspace
Instructs Dynare not to write parameter assignments to parameter names
in the ‘.m’ file produced by the preprocessor. This is
potentially useful when running dynare
on a large ‘.mod’
file that runs into workspace size limitations imposed by MATLAB.
compute_xrefs
Tells Dynare to compute the equation cross references, writing them to the output ‘.m’ file.
Output
Depending on the computing tasks requested in the ‘.mod’ file,
executing the dynare
command will leave variables containing
results in the workspace available for further processing. More
details are given under the relevant computing tasks.
The M_
, oo_
, and options_
structures are saved in
a file called ‘FILENAME_results.mat’. If they exist,
estim_params_
, bayestopt_
, dataset_
, oo_recursive_
and
estimation_info
are saved in the same file.
Example
dynare ramst dynare ramst.mod savemacro |
The output of Dynare is left into three main variables in the MATLAB/Octave workspace:
Structure containing various information about the model.
Structure contains the values of the various options used by Dynare during the computation.
Structure containing the various results of the computations.
Cell array containing the oo_
structures obtained when estimating the model
for the different samples when performing recursive estimation and forecasting.
The oo_
structure obtained for the sample ranging to the th observation
is saved in the th field. The fields for non-estimated endpoints are empty.
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