get_proj¶
- sherpa.ui.get_proj()¶
Return the confidence-interval estimation object.
- Returns
proj
- Return type
See also
conf
Estimate parameter confidence intervals using the confidence method.
get_proj_opt
Return one or all of the options for the confidence interval method.
proj
Estimate confidence intervals for fit parameters.
set_proj_opt
Set an option of the proj estimation object.
Notes
The attributes of the object include:
eps
The precision of the calculated limits. The default is 0.01.
fast
If
True
then the fit optimization used may be changed from the current setting (only for the error analysis) to use a faster optimization method. The default isFalse
.max_rstat
If the reduced chi square is larger than this value, do not use (only used with chi-square statistics). The default is 3.
maxfits
The maximum number of re-fits allowed (that is, when the
remin
filter is met). The default is 5.maxiters
The maximum number of iterations allowed when bracketing limits, before stopping for that parameter. The default is 200.
numcores
The number of computer cores to use when evaluating results in parallel. This is only used if
parallel
isTrue
. The default is to use all cores.parallel
If there is more than one free parameter then the results can be evaluated in parallel, to reduce the time required. The default is
True
.remin
The minimum difference in statistic value for a new fit location to be considered better than the current best fit (which starts out as the starting location of the fit at the time
proj
is called). The default is 0.01.sigma
What is the error limit being calculated. The default is 1.
soft_limits
Should the search be restricted to the soft limits of the parameters (
True
), or can parameter values go out all the way to the hard limits if necessary (False
). The default isFalse
tol
The tolerance for the fit. The default is 0.2.
Examples
>>> print(get_proj()) name = projection numcores = 8 max_rstat = 3 maxiters = 200 soft_limits = False eps = 0.01 fast = False maxfits = 5 remin = 0.01 tol = 0.2 sigma = 1 parallel = True