PIMMS v3.95 now available
If you would like to be informed whenever
a new version of PIMMS is released, please contact
Koji Mukai,
Koji.Mukai@nasa.gov.
V3.9g includes minor updates of the effective area curves for
- XMM-Newton EPIC/MOS (with an added warning about
MOS1 timing mode data), suitable for AO-8 proposers.
- Effective area curves are unchanged for EPIC/pn and for RGS.
- Swift XRT in the PC and the WT modes, suitable for Cycle 5
proposers.
- The PD mode is no longer operational, although PIMMS still
includes an old calibration for this mode. The BAT and UVOT
effective area curves have not been updated at this time.
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PIMMS - Portable, Interactive Multi-Mission Simulator
Disclaimer
PIMMS, as described here, is software for high-energy
astrophysicists, and has nothing to do with
PIMMS,
the Project to Increase Mastery of Mathematics and Science.
The program was named quite independently of this
worthwhile project at Wesleyan University.
Time-Variable Instrumental Response
PIMMS currently does not support time-variable calibration
of instruments. Because it is primarily intended as a planning tool
for future observations, the responses in PIMMS is often
applicable for upcoming observations.
For example, if you are a Chandra user who wishes
to convert count rates in a past observation to flux, please see
this note.
Command-line version and World-Wide Web version
PIMMS had originally been written as a stand-alone,
interactive program (the "command line PIMMS").
WebPIMMS
implements a subset of the functionalities of the command line
PIMMS. While allowing easy access, without the need to
install the software, it probably will not have all the functionality
of the command line versions in the foreseeable future.
Installation Guide
PIMMS is currently supported on several flavors of UNIX
workstations, on Linux PCs, Macs running OS X/Darwin.
It requires a Fortran77 compiler, and make on UNIX machines.
Please consult the Installation Guide
for details, then
download
the latest version.
Revision History
- New in Version 3.9g (Released 2008 Sep 15)
- Effective area curves for XMM-Newton EPIC/MOS and Swift XRT have
been updated. For the MOS, a new warning regarding the loss of
efficiency in MOS1 timing mode data has been included.
- New in Version 3.9f (Released 2008 Apr 14)
- Effective area curves for Constellation-X (under the new name
"conx"), XEUS, as well as those for Swift UVOT (except
grisms), have been updated.
- New in Version 3.9e (Released 2007 Dec 18)
- Effective area curves for the Chandra instruments have
been updated. The new versions are appropriate for Cycle 10 proposers.
- New in Version 3.9d (Released 2007 Oct 23)
- Effective area curves for Suzaku XIS and HXD instruments have
been updated. The new versions are appropriate for Cycle 3 proposers.
- New in Version 3.9c (Released 2007 Sep 12)
- Effective area curves for XMM-Newton EPIC instruments have been
updated, reflecting very minor calibration changes. However, at
the same time, PIMMS now predicts count rates for EPIC/pn for
PATTERN=0 events only, to provide a more conservative estimates
for proposers. This change reduces the predicted count rates
typically by a third. There is a corresponding minor change
in pile-up correction routine so it will continue using the
total (all PATTERN) count rates internally.
- New in Version 3.9b (Released 2006 Dec 26)
- Updated Chandra effective area curves appropriate for Cycle 9 proposers.
- A bug that affected energy flux calculations of redshifted,
table-based models (including Raymond-Smith) has been fixed.
Note that analytical models (power-law, blackbody, bremsstrahlung)
were never affected by this bug; neither were table-based models
when not redshifted; nor the photon flux calculations of
redshifted, table-based models.
- New in Version 3.9a (Released 2006 Oct 26)
- Suzaku XIS and HXD effective area curves have been updated.
The new calibration is appropriate for Cycle 2 proposers.
- New in Version 3.9 (Released 2006 Sep 6)
- A bug that affected command-line users on Linux platforms,
causing a core dump under certain circumstances, has been fixed.
- XMM-Newton EPIC effective area curves have been updated. The
new calibration is appropriate for AO-6 proposers. However, the
differences with previous versions are small.
- New in Version 3.8/3.8a/3.8a2 (Released 2006 May 1 - 2006 May 24)
New in Version 3.7/3.7a (Released 2005 Sep 13 - 2005 Dec 23)
New in Version 3.6/3.6a/3.6b/3.6c5 (Released 2004 Sep 15 - 2005 Feb 10).
New in Version 3.5 (Released 2004 Jul 9).
New in Version 3.4/3.4a (Released 2003 Sep - 2004 Jan 12).
New in Version 3.3/3.3a (Released 2002 Dec 16 - 2003 Mar 27).
New in version 3.2-3.2d (Released 2001 Sep 10 - 2002 Jan 29).
New in version 3.1 a-c (Released 2001 January 29 - May 03).
New in version 3.0 (Released 2000 April 28).
New in version 2.7 (Released 1999 July 9).
New in version 2.6 a-c (Released 1999 February 2 - May 4).
New in version 2.5 (Released 1997 December 15).
New in version 2.4/2.4b
(Released 1996 June 03).
New in version 2.3 (Released 1996 June 03).
New in version 2.2 (Released 1995 August 07).
New in version s2.1a (Released 1995 April 03).
Users' Guide
- Introduction
- Sample Sessions
- Using Multi-component Models
- Extended Sources
- Missions
- The User Interface
- PIMMS commands
Download the
LaTeX,
PDF, or
PostScript
version of the Guide.
Adding new missions and other future plans
At a very basic level, new missions can be added simply by
creating a set of effective area curve files: they need to
be two-column ASCII files, containing pairs of photon energy
in keV and effective area in cm2.
PIMMS source code and data files are distributed
freely, without restrictions. If you decide to add new
missions to PIMMS, we would like to be able to distribute
it from HEASARC.
We hope to have a programmers' guide some day to make it easier
to add mission-specific information.
Credits and Feedback
PIMMS is mostly written and maintained by Koji Mukai.
Effective area curves for current and future missions have been supplied
by the respective projects. XTE specific subroutines have been written
by Koji Mukai, with the help of Jim Lochner and Phil Blanco. The SAX
specific subroutine has been written by the SAX Data Center and
Lorella Angelini. Snowden R-band effective area curves for ROSAT
PSPC have been created by Richard West of Leicester.
The only published article on PIMMS is in the HEASARC journal:
Mukai, K. 1993, Legacy 3, 21-31.
Questions and comments on PIMMS can be sent to
Koji Mukai,
Koji.Mukai@nasa.gov.
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This file was last modified on Monday, 15-Sep-2008 19:01:04 EDT