GEMINI (July2017)     Gemini IRAF package v1.14     GEMINI (July2017)

Release date: July 20, 2017

This document describes the revisions relative to the Gemini IRAF package
v1.13.1.

All users are encouraged to use Anaconda (https://www.continuum.io/downloads)
and AstroConda (https://astroconda.readthedocs.io/) to install IRAF and the 
Gemini IRAF package.  Full installation instructions for AstroConda on the 
AstroConda website.  For those in a hurry, quick instructions can also be
found on the Gemini website at: http://www.gemini.edu/node/12665

A tarball is also available from the Gemini website.  Manual installation
instructions for the Gemini IRAF package are included in the 
gemini_readme.txt file.  The tarball, gemini_v114.tar.gz, can be obtained from
http://www.gemini.edu/sciops/data-and-results/processing-software then clicking
on the Download link. 

Ureka users are strongly encouraged to switch to AstroConda.  However, this
release is expected to work on Ureka systems.  Users will have to install the
package manually from the tarball.  Installation instructions are provided in the 
gemini_readme.txt file distributed with the package.

The Gemini IRAF package v1.14 has been fully tested and vetted *only* in the 
PyRAF environment.  Most of the package works under IRAF CL, however we have
experienced irregularities here and there.  Therefore, we encourage people to
use PyRAF to avoid problems.

WARNING!! The Gemini IRAF package v1.14 does NOT work reliably with any of the
version of IRAF v2.16 as distributed by NOAO.  AstroConda (and Ureka) contains 
a version of IRAF v2.16 modified for compatibility with Gemini IRAF and modern
operating systems.

If updating an older installation of the Gemini IRAF package, it is 
recommended that users initialize their uparm directories by typing 
"rm uparm/*" in their iraf home directory (ie., where mkiraf was executed /
where the login.cl file is located).  NOTE: if you wish to make a note of any
stored parameters, please do so before running this command.

The binaries distributed with the package were built on CentOS 5 and 
Mac OS X 10.6.  See gemini_readme.txt for more information. 


PRIMARY REVISIONS
=================
1) GMOS:  a) Support for new GMOS-N Hamamatsu CCDs.

          b) Updates to GMOS-S Hamamatsu fast and low gains.
          
          c) Others
          
2) MOSTOOLS a) Updates for GMOS, new support for F2.
          
3) F2:    a) Support for new filters and configurations

4) GNIRS: a) Fix to WCS issue that prevented proper stacking.

5) GSAOI: a) Dome flat processing improved.


DETAILS OF THE REVISIONS
========================

Only the most notable changes or those more likely to be of interest to 
the users are highlighted, minor bug fixes are not.

1) GMOS 
-------------------
Instruments: GMOS North and South

    a) Support for new GMOS-N Hamamatsu CCDs.

       New Hamamatsu CCDs have been installed in GMOS North.  The GMOS package
       and other utilities are have been made compatible with the new detectors.
       Note that like GMOS-S Hamamatsu, the GMOS-N Hamamatsu data has 12 science
       extensions (12 amps) not 6 like for the previous CCD set.
       
       Gains, readnoise, full well, quantum efficiency have been characterized
       and are included in this release.  New bad pixel masks are available. 
       Typical data reductions have been tested for all main mode.  The 
       reduction steps are the same as with previous CCDs.  However, please
       note that quantum efficiency correction is essential as the CCDs are
       not identical in their response.

       The quantum efficiency solution is known to be less accurate in blue.  
       This is due to scattered light, red light being scattered in the blue.
       Because of this no one solution will work for all type of target.  We
       have provided the solution that seems to work best to most cases.

    b) Updates to GMOS-S Hamamatsu fast and low gains.
    
       Low and fast gain values have been recalculated and adjusted for 
       GMOS-S Hamamatsu CCDs.  The specific data affected are from before
       the video boards were replaced (August 2015).
       
    c) Others
    
       Very basic support of order 2 spectroscopic observations was added.
       Note that the resolution obtained in order 2 is much lower than 
       expected.  In most case, using a high resolution grating in order 1
       will yield better results.  
       
       The scattered light removal task gfscatsub.cl now can be run 
       interactively to allow visual inspection of the 2D surface fit.
    
    
       
2) MOSTOOLS
-------------------
Instruments: GMOS and F2

    a) Updates for GMOS, new support for F2.
    
    Support for F2 MOS has been added to the MOSTOOLS package.  Updates and
    improvements to the GMOS support were also done, in particular there 
    were improvements to the pseudo-image transformations.


3) F2
-------------------
Instrument: F2

    a) Support for new filters and configurations
    
    New filters were added to look-up tables: K-long, K-red, and K-blue. Also,
    the configuration R3K+K-long was added to look-up tables.
    

4) GNIRS
-------------------
Instrument: GNIRS

    a) Fix to WCS issue that prevented proper stacking.
    
    A serious problem with GNIRS data WCS was causing nscombine to fail to
    stack the dithered spectra correctly.  This affected only data taken at
    certain position angles.  Also, there was a date dependencies to the 
    problem.  The tasks "nsprepare" was modified to handle all the situations
    and fix the headers such that the spectra are stacked correctly down
    the line.
    

5) GSAOI
-------------------
Instrument: GSAOI

    a) Dome flat processing improved.
    
    The "gaflat" parameter "use_offs" can now be set to "default" for any
    GSAOI filter.  In default mode, the software will require OFF flats for
    the filters that need them, and ignore them for the filters that do not
    need them.  The previous implementation was incomplete.



SUMMARY OF ALL CHANGED PARAMETERS
=================================

If a task listed below is causing problems, it is very likely that the task is
accessing an old parameter file that does not contain the updated parameters
and/or values.  To resolve the problem, the old parameter files for the 
Gemini IRAF package must be removed from the uparm directory.  To do this, 
initialize the uparm directory by typing "rm uparm/*" in your iraf home 
directory (ie., where you ran mkiraf / where your login.cl file is located).
NOTE: if you wish to make a note of any stored parameters, please do so before
running this command.  If it is not desirable to remove all the old parameter
files for the Gemini IRAF tasks, it is possible to "unlearn" the individual
task.

Please see the appropriate help file for more information about the specific
parameter changes listed below.

    gmos.gfscatsub:
      - New parameters:     fl_inter