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MultiDrizzle ACS
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Hubble Space Telescope
MultiDrizzle in the ACS Pipeline

MultiDrizzle in the ACS Pipeline (Circa 2005)

THIS PAGE IS OBSOLETE. PLEASE VISIT THE DRIZZLEPAC WEB SITE FOR THE LATEST INFORMATION.

Click here for the January 2009 MultiDrizzle Handbook which supercedes some but not all of this information below. It should be your starting point for using the current version of MultiDrizzle, including understanding task parameters, current working philosophy behind the various software tasks, and for examples using the latest methods and versions of the software and its task parameters. The information below, from 2005, may still be applicable in some cases, but is mainly maintained here at present for historical background and for links to other relevant technical documentation related to the development of the task as it existed in earlier versions. (The original circa 2005 page complete with its old, original links is below this point.)


The MultiDrizzle software (Koekemoer et al. 2002, HST Calibration Workshop, p. 337) has been incorporated into the HST Archive Pipeline. This means that when ACS associations are requested from the Archive, a new image product will be delivered ("*_drz.fits") which consists of a cosmic-ray cleaned, combined image using the "drizzle" software (Fruchter, A. S. & Hook, R. N., 2002, PASP 114, 144). This image product will be created for all ACS associations, which are defined as groups of exposures within a single visit, obtained using the recommended dither patterns or CR-SPLITs as specified in the Phase II observing instructions.

NGC4594
An example of the cleaned MultiDrizzle product from the ACS Archive Pipeline, for a dithered 4-exposure observation of the nearby galaxy NGC 4594. The top panels show the final full-frame drizzled and weight images (left and right, respectively). The bottom left panel shows a close-up of the output image from MultiDrizzle, while the bottom right panel shows the sum of all the accumulated cosmic rays originally present in the exposures.

Chapter 4 of the ACS Data Handbook describes the use and importance of drizzling for ACS data sets. The pipeline previously constructed drz.fits image products using PyDrizzle. The advantages of MultiDrizzle over PyDrizzle are described in Section 4.5 of the ACS Data Handbook. Additional information can also be found on the MultiDrizzle Software Page:

http://drizzlepac.stsci.edu

The combined images produced by MultiDrizzle in the ACS pipeline have a pixel scale that depends on which camera (WFC, HRC or SBC) was used (0.05 arcsec/pixel for the WFC, 0.025 arcsec/pixel for the HRC and SBC). The orientation for all these images is in the default unrotated detector frame. The drizzled images contain three extensions: [sci] being the drizzled science image, [wht] being the weight image, and [ctx] being the context image, showing which exposures contributed to each output pixel. The background sky value is calculated by MultiDrizzle and stored in the image headers of each individual flatfielded file ("*_flt.fits"). The actual science pixel values in the flatfielded files are not modified by MultiDrizzle. However, pixels that have been identified as cosmic rays are flagged in the data quality array using the bit value 4096. The MultiDrizzle image product drz.fits is generally sky-subtracted, with the exception of narrow-band filters and UV filters that are expected to have a dark sky background.

The MultiDrizzle pipeline products are intended to be scientifically useful in all cases where the standard recommendations on dithering have been followed (for example, obtaining at least four exposures of approximately equal length, and using a pre-defined dither pattern or CR-SPLIT as recommended). While the MultiDrizzle products are also created for datasets with one or two exposures, it should be noted that the high rate of incidence of cosmic rays will generally result in a number of pixels that are unrecoverable because they have cosmic rays in all exposures. It should also be noted that the final PSF is slightly broader, since an additional convolution is introduced in drizzling the input images onto the output plane. As described in Chapter 4 of the ACS Data Handbook, observers can run the MultiDrizzle software outside of the HST Archive to recalibrate the data if necessary.

Last modified February 4, 2005 by Anton Koekemoer