PlotPhotonTransferCurveTask¶

class lsst.cp.pipe.PlotPhotonTransferCurveTask(datasetFilename, linearizerFileName=None, outDir='.', detNum=999, signalElectronsRelativeA=75000, plotNormalizedCovariancesNumberOfBins=10)¶

Bases: object

A class to plot the dataset from MeasurePhotonTransferCurveTask.

Parameters:

datasetFileName : str: datasetPtc (lsst.ip.isr.PhotonTransferCurveDataset) file name (fits).
linearizerFileName : str, optional: linearizer (isr.linearize.Linearizer) file name (fits).
outDir : str, optional: Path to the output directory where the final PDF will be placed.
detNum : int, optional: Detector number.
signalElectronsRelativeA : float, optional: Signal value for relative systematic bias between different methods of estimating a_ij (Fig. 15 of Astier+19).
plotNormalizedCovariancesNumberOfBins : float, optional: Number of bins in plotNormalizedCovariancesNumber function (Fig. 8, 10., of Astier+19).

Notes

The plotting code in this file is almost identical to the code in plotPtcGen2.py. If further changes are implemented in this file, plotPtcGen2.py needs to be updated accordingly, and vice versa. The file plotPtcGen2.py helps with maintaining backwards compatibility with gen2 as we transition to gen3; the code duplication is meant to only last for few month from now (Jan, 2021). At that point only this file, plotPtc.py, will remain.

Methods Summary

`ab_vs_dist`(aDict, bDict, pdfPages[, bRange])	Fig.
`binData`(x, y, binIndex[, wy])	Bin data (usually for display purposes).
`covAstierMakeAllPlots`(dataset, pdfPages[, log])	Make plots for MeasurePhotonTransferCurve task when doCovariancesAstier=True.
`findGroups`(x, maxDiff)	Group data into bins, with at most maxDiff distance between bins.
`indexForBins`(x, nBins)	Builds an index with regular binning.
`plotAcoeffsSum`(aDict, bDict, pdfPages)	Fig.
`plotCovariances`(mu, covs, covsModel, …)	Plot covariances and models: Cov00, Cov10, Cov01.
`plotNormalizedCovariances`(i, j, inputMu, …)	Plot C_ij/mu vs mu.
`plotRelativeBiasACoeffs`(aDict, aDictNoB, …)	Fig.
`plot_a_b`(aDict, bDict, pdfPages[, bRange])	Fig.
`run`(filenameFull, datasetPtc[, linearizer, log])	Make the plots for the PTC task
`runDataRef`()	Run the Photon Transfer Curve (PTC) plotting measurement task.

Methods Documentation

static ab_vs_dist(aDict, bDict, pdfPages, bRange=4)¶

Fig. 13 of Astier+19.

Values of a and b arrays fits, averaged over amplifiers, as a function of distance.

Parameters:

aDict : dict [numpy.array]: Dictionary keyed by amp names containing the fitted ‘a’ coefficients from the model in Eq. 20 of Astier+19 (if ptcFitType is FULLCOVARIANCE).
bDict : dict [numpy.array]: Dictionary keyed by amp names containing the fitted ‘b’ coefficients from the model in Eq. 20 of Astier+19 (if ptcFitType is FULLCOVARIANCE).
pdfPages : matplotlib.backends.backend_pdf.PdfPages: PDF file where the plots will be saved.
bRange : int: Maximum lag for b arrays.

static binData(x, y, binIndex, wy=None)¶

Bin data (usually for display purposes).

Parameters:	x : `numpy.array` Data to bin. y : `numpy.array` Data to bin. binIdex : `list` Bin number of each datum. wy : `numpy.array` Inverse rms of each datum to use when averaging (the actual weight is wy**2).
Returns:	xbin : `numpy.array` Binned data in x. ybin : `numpy.array` Binned data in y. wybin : `numpy.array` Binned weights in y, computed from wy’s in each bin. sybin : `numpy.array` Uncertainty on the bin average, considering actual scatter, and ignoring weights.

covAstierMakeAllPlots(dataset, pdfPages, log=None)¶

Make plots for MeasurePhotonTransferCurve task when doCovariancesAstier=True.

This function call other functions that mostly reproduce the plots in Astier+19. Most of the code is ported from Pierre Astier’s repository https://github.com/PierreAstier/bfptc

Parameters:	dataset : `lsst.ip.isr.ptcDataset.PhotonTransferCurveDataset` The dataset containing the necessary information to produce the plots. pdfPages : `matplotlib.backends.backend_pdf.PdfPages` PDF file where the plots will be saved. log : `lsst.log.Log`, optional Logger to handle messages

static findGroups(x, maxDiff)¶

Group data into bins, with at most maxDiff distance between bins.

Parameters:	x : `list` Data to bin. maxDiff : `int` Maximum distance between bins.
Returns:	index : `list` Bin indices.

static indexForBins(x, nBins)¶

Builds an index with regular binning. The result can be fed into binData.

Parameters:	x : `numpy.array` Data to bin. nBins : `int` Number of bin.
Returns:	np.digitize(x, bins): `numpy.array` Bin indices.

static plotAcoeffsSum(aDict, bDict, pdfPages)¶

Fig. 14. of Astier+19

Cumulative sum of a_ij as a function of maximum separation. This plot displays the average over channels.

Parameters:

aDict : dict [numpy.array]: Dictionary keyed by amp names containing the fitted ‘a’ coefficients from the model in Eq. 20 of Astier+19 (if ptcFitType is FULLCOVARIANCE).
bDict : dict [numpy.array]: Dictionary keyed by amp names containing the fitted ‘b’ coefficients from the model in Eq. 20 of Astier+19 (if ptcFitType is FULLCOVARIANCE).
pdfPages : matplotlib.backends.backend_pdf.PdfPages: PDF file where the plots will be saved.

static plotCovariances(mu, covs, covsModel, covsWeights, covsNoB, covsModelNoB, covsWeightsNoB, gainDict, noiseDict, aDict, bDict, pdfPages)¶

Plot covariances and models: Cov00, Cov10, Cov01.

Figs. 6 and 7 of Astier+19

Parameters:

mu : dict [str, list]: Dictionary keyed by amp name with mean signal values.
covs : dict [str, list]: Dictionary keyed by amp names containing a list of measued covariances per mean flux.
covsModel : dict [str, list]: Dictionary keyed by amp names containinging covariances model (Eq. 20 of Astier+19) per mean flux.
covsWeights : dict [str, list]: Dictionary keyed by amp names containinging sqrt. of covariances weights.
covsNoB : dict [str, list]: Dictionary keyed by amp names containing a list of measued covariances per mean flux (‘b’=0 in Astier+19).
covsModelNoB : dict [str, list]: Dictionary keyed by amp names containing covariances model (with ‘b’=0 in Eq. 20 of Astier+19) per mean flux.
covsWeightsNoB : dict [str, list]: Dictionary keyed by amp names containing sqrt. of covariances weights (‘b’ = 0 in Eq. 20 of Astier+19).
gainDict : dict [str, float]: Dictionary keyed by amp names containing the gains in e-/ADU.
noiseDict : dict [str, float]: Dictionary keyed by amp names containing the rms redout noise in e-.
aDict : dict [str, numpy.array]: Dictionary keyed by amp names containing ‘a’ coefficients (Eq. 20 of Astier+19).
bDict : dict [str, numpy.array]: Dictionary keyed by amp names containing ‘b’ coefficients (Eq. 20 of Astier+19).
pdfPages : matplotlib.backends.backend_pdf.PdfPages: PDF file where the plots will be saved.

plotNormalizedCovariances(i, j, inputMu, covs, covsModel, covsWeights, covsNoB, covsModelNoB, covsWeightsNoB, pdfPages, offset=0.004, numberOfBins=10, plotData=True, topPlot=False, log=None)¶

Plot C_ij/mu vs mu.

Figs. 8, 10, and 11 of Astier+19

Parameters:

i : int: Covariane lag
j : int: Covariance lag
inputMu : dict [str, list]: Dictionary keyed by amp name with mean signal values.
covs : dict [str, list]: Dictionary keyed by amp names containing a list of measued covariances per mean flux.
covsModel : dict [str, list]: Dictionary keyed by amp names containinging covariances model (Eq. 20 of Astier+19) per mean flux.
covsWeights : dict [str, list]: Dictionary keyed by amp names containinging sqrt. of covariances weights.
covsNoB : dict [str, list]: Dictionary keyed by amp names containing a list of measued covariances per mean flux (‘b’=0 in Astier+19).
covsModelNoB : dict [str, list]: Dictionary keyed by amp names containing covariances model (with ‘b’=0 in Eq. 20 of Astier+19) per mean flux.
covsWeightsNoB : dict [str, list]: Dictionary keyed by amp names containing sqrt. of covariances weights (‘b’ = 0 in Eq. 20 of Astier+19).
expIdMask : dict [str, list]: Dictionary keyed by amp names containing the masked exposure pairs.
pdfPages : matplotlib.backends.backend_pdf.PdfPages: PDF file where the plots will be saved.
offset : float, optional: Constant offset factor to plot covariances in same panel (so they don’t overlap).
numberOfBins : int, optional: Number of bins for top and bottom plot.
plotData : bool, optional: Plot the data points?
topPlot : bool, optional: Plot the top plot with the covariances, and the bottom plot with the model residuals?
log : lsst.log.Log, optional: Logger to handle messages.

static plotRelativeBiasACoeffs(aDict, aDictNoB, fullCovsModel, fullCovsModelNoB, signalElectrons, gainDict, pdfPages, maxr=None)¶

Fig. 15 in Astier+19.

Illustrates systematic bias from estimating ‘a’ coefficients from the slope of correlations as opposed to the full model in Astier+19.

Parameters:

aDict : dict: Dictionary of ‘a’ matrices (Eq. 20, Astier+19), with amp names as keys.
aDictNoB : dict: Dictionary of ‘a’ matrices (‘b’= 0 in Eq. 20, Astier+19), with amp names as keys.
fullCovsModel : dict [str, list]: Dictionary keyed by amp names containing covariances model per mean flux.
fullCovsModelNoB : dict [str, list]: Dictionary keyed by amp names containing covariances model (with ‘b’=0 in Eq. 20 of Astier+19) per mean flux.
signalElectrons : float: Signal at which to evaluate the a_ij coefficients.
pdfPages : matplotlib.backends.backend_pdf.PdfPages: PDF file where the plots will be saved.
gainDict : dict [str, float]: Dicgionary keyed by amp names with the gains in e-/ADU.
maxr : int, optional: Maximum lag.

static plot_a_b(aDict, bDict, pdfPages, bRange=3)¶

Fig. 12 of Astier+19

Color display of a and b arrays fits, averaged over channels.

Parameters:

aDict : dict [numpy.array]: Dictionary keyed by amp names containing the fitted ‘a’ coefficients from the model in Eq. 20 of Astier+19 (if ptcFitType is FULLCOVARIANCE).
bDict : dict [numpy.array]: Dictionary keyed by amp names containing the fitted ‘b’ coefficients from the model in Eq. 20 of Astier+19 (if ptcFitType is FULLCOVARIANCE).
pdfPages : matplotlib.backends.backend_pdf.PdfPages: PDF file where the plots will be saved.
bRange : int: Maximum lag for b arrays.

run(filenameFull, datasetPtc, linearizer=None, log=None)¶: Make the plots for the PTC task

runDataRef()¶: Run the Photon Transfer Curve (PTC) plotting measurement task.

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PlotPhotonTransferCurveTask¶