Synopsis
Plot the statistic value as two parameters are varied.
Syntax
reg_proj(par0, par1, id=None, otherids=None, replot=False, fast=True, min=None, max=None, nloop=(10, 10), delv=None, fac=4, log=(False, False), sigma=(1, 2, 3), levels=None, numcores=None, overplot=False)
Description
Create a confidence plot of the fit statistic as a function of parameter value. Dashed lines are added to indicate the current statistic value and the parameter value at this point. The parameter value is varied over a grid of points and the free parameters re-fit. It is expected that this is run after a successful fit, so that the parameter values are at the best-fit location.
Examples
Example 1
Vary the xpos and ypos parameters of the gsrc model component for all data sets with a source expression.
>>> reg_proj(gsrc.xpos, gsrc.ypos)
Example 2
Use only the data in data set 1:
>>> reg_proj(gsrc.xpos, gsrc.ypos, id=1)
Example 3
Only display the one- and three-sigma contours:
>>> reg_proj(gsrc.xpos, gsrc.ypos, sigma=(1, 3))
Example 4
Display contours at values of 5, 10, and 20 more than the statistic value of the source model for data set 1:
>>> s0 = calc_stat(id=1) >>> lvls = s0 + np.asarray([5, 10, 20]) >>> reg_proj(gsrc.xpos, gsrc.ypos, levels=lvls, id=1)
Example 5
Increase the limits of the plot and the number of steps along each axis:
>>> reg_proj(gsrc.xpos, gsrc.ypos, id=1, fac=6, nloop=(41, 41))
Example 6
Compare the ampl parameters of the g and b model components, for data sets 'core' and 'jet', over the given ranges:
>>> reg_proj(g.ampl, b.ampl, min=(0, 1e-4), max=(0.2, 5e-4), ... nloop=(51, 51), id='core', otherids=['jet'])
PARAMETERS
The parameters for this function are:
Parameter | Type information | Definition |
---|---|---|
par0 | The parameters to plot on the X and Y axes, respectively. | |
par1 | The parameters to plot on the X and Y axes, respectively. | |
id | int, str, or None, optional | The data set that provides the data. If not given then all data sets with an associated model are used simultaneously. |
otherids | sequence of int or str, or None, optional | Other data sets to use in the calculation. |
replot | bool, optional | Set to True to use the values calculated by the last call to `int_proj` . The default is False . |
fast | bool, optional | 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 is False . |
min | pair of numbers, optional | The minimum parameter value for the calculation. The default value of none means that the limit is calculated from the covariance, using the `fac` value. |
max | pair of number, optional | The maximum parameter value for the calculation. The default value of none means that the limit is calculated from the covariance, using the `fac` value. |
nloop | pair of int, optional | The number of steps to use. This is used when `delv` is set to none . |
delv | pair of number, optional | The step size for the parameter. Setting this overrides the `nloop` parameter. The default is none . |
fac | number, optional | When `min` or `max` is not given, multiply the covariance of the parameter by this value to calculate the limit (which is then added or subtracted to the parameter value, as required). |
log | pair of bool, optional | Should the step size be logarithmically spaced? The default ( False ) is to use a linear grid. |
sigma | sequence of number, optional | The levels at which to draw the contours. The units are the change in significance relative to the starting value, in units of sigma. |
levels | sequence of number, optional | The numeric values at which to draw the contours. This overrides the `sigma` parameter, if set (the default is none ). |
numcores | optional | The number of CPU cores to use. The default is to use all the cores on the machine. |
overplot | bool, optional | If True then add the data to an existing plot, otherwise create a new plot. The default is False . |
Notes
The difference to `reg_unc` is that at each step, a fit is made to the remaining thawed parameters in the source model. This makes the result a more-accurate rendering of the projected shape of the hypersurface formed by the statistic, but the run-time is longer than, the results of `reg_unc` , which does not vary any other parameter. If there are no free parameters in the model, other than the parameters being plotted, then the results will be the same.
Bugs
See the bugs pages on the Sherpa website for an up-to-date listing of known bugs.
See Also
- confidence
- conf, confidence, covar, covariance, get_conf, get_conf_results, get_covar, get_covar_opt, get_covar_results, get_covariance_results, get_int_proj, get_int_unc, get_proj, get_proj_opt, get_proj_results, get_projection_results, get_reg_proj, get_reg_unc, int_proj, int_unc, proj, projection, reg_unc, set_conf_opt, set_covar_opt, set_proj_opt