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Definitions:

Catalog - From the catalog, you can browse the data and download complete datasets, or skim datasets to select a subset of the events.

Simple Skimmer - The skimmer enables you to apply cuts to "popular ???" or "recent ???" datasets. Other datasets may be skimmed using the Catalog tab. ???

History - The "History" link allows you to access the full history of requests you've submitted previously; useful for starting a similar request, or for checking on the status of an existing request.

Event Display and Astro Server - WIRED event display and astro server are not yet available, but will be added soon???

Full Skimmer - For those with specialized skimming needs; currently in beta release and not yet integrated with the Data Portal.

Tom's Input (12-11-2007)

Description Format

L0dataT Raw data; post trigger LDF

L0dataF Raw data; post OBF (on-board filter) LDF

cal Calorimeter ROOT Tree ROOT

digi Digitization ROOT Tree ROOT

fes Pointing history (exposure) EBF

gcr Galactic cosmic ray (heavy ion ROOT ntuple) ROOT

mc Monte Carlo ROOT Tree ROOT

merit "Analysis" ROOT ntuple ROOT

recon Reconstruction ROOT Tree ROOT

relation ROOT relational table ROOT

meta ROOT file for cel (composite event list) eric charles ROOT

svac SVAC ROOT ntuple ROOT

svachist SVAC histogram ROOT

from Dan:

Data Catalog

Data Types

plus (Tony or Dan):

Sites (e.g., SLAC, SLAC_ROOT, etc.)

plus ???metadata folder/button???

from Tony:

Simple Skimmer

from Igor:

Full Skimmer (note; link is broken)

Tom's Data Catalog FAQs Contributions:

How do I access/download a single file from a Monte Carlo task?

If you run a web browser on a SLAC machine, then go to the dataCatalog, http://glast-ground.slac.stanford.edu/DataCatalog,
navigate to the data of interest, e.g., MC-Tasks -> ServiceChallenge
-> backgnd-GR-v13r5p5-Day -> runs -> gcr, then click on the "Show
Files" link, then click on any of the individual run numbers, e.g., "000000" is stream 0 in the task. You will be asked if you wish to download the file. As you will be running on a SLAC machine, the entire SLAC disk environment will be visible for you to select an appropriate destination.

You can also download files to your home site by running the web browser on one of your own machines. The dataCatalog downloader should just work.

How do I tell the simple skimmer which datasets to read?

First, navigate to the desired files in the dataCatalog, http://glast-ground.slac.stanford.edu/DataCatalog, by using the left-hand column, e.g. MC-Tasks -> ServiceChallenge ->
allGamma-GR-v13r5p5 -> runs -> merit, and then use the "Skim Files"
link on that page - which causes the correct dataset identifier to be generated in the simple skimmer form.

How do I access/download a single file from a Monte Carlo task?

You can also download files to your home site by running the web browser on one of your own machines. The dataCatalog downloader should just work.

How do I tell the simple skimmer which datasets to read?

Excerpts from: GLAST Data Access and Analysis-PDF

LAT Photon and Event Data. Photon and event data will be served through the GSSC’s LAT data server. The GSSC populates the photon database based on event data received from
the LISOC.

Events are all triggers reconstructed by the LISOC and will include, e.g., electrons and protons in addition to photons. There are about 200 parameters associated with each event. Based on these parameters, a subset of events are classified as gamma-ray photons. We then use only the events classified as photons and extract about 20 of the 200 parameters for each photon that are most useful for scientific analysis to populate the photon database. Most users will only need the photon data, but the event data will be there for those who wish to rescreen the data themselves.

New data will be added to the sever as soon as they are received from the LISOC. This will occur within 72 hours of the data being taken but likely in much less time. A variety of source catalogs will be served through Browse.

Burst and transient catalogs will be updated on a per event basis. Other catalogs will be updated infrequently. Also available will be an interstellar emission model. This will be refined as the mission progresses and updated infrequently.

LAT Data Server. The LAT Data Server will provide users with access to events, photons, and
position and attitude history from the LAT. It will accessed by users through a customized web interface hosted by the GSSC.

The user enters the desired position with optional energy and time cuts and will then be served a page with the estimated query time and a link to a results page. When the data files are ready (FITS files), they will be made available for download on the results page.

The data server is implemented as a small cluster of Linux PCs which operate on event lists stored in FITS files. Based on the user's query, the photons matching the data cuts are extracted and presented to the user as a downloadable FITS file. The photon and event databases will be updated immediately when new data are received by the GSSC from the LAT instrument team.

Spacecraft Data. In addition to the science data, various data products dealing with the spacecraft will be available via the GSSC website to help proposers and observers. These
will include proposed and observed science timelines for coordinating simultaneous multi-wavelength observations, spacecraft alerts, pointing and livetime history, and various other spacecraft related data.

Data Properties and Data Analysis. The LAT will detect photons that can be used in data analysis up to ~66º offaxis. The effective area decreases off-axis, but the solid angle increases, and therefore a large fraction of the data will be taken off-axis. The GBM will detect bursts down to the Earth’s limb. While GLAST can point at individual sources, there will rarely be any advantage because of the LAT’s large FOV. Usually GLAST will rock ~35° above and below the orbital plane once per orbit for uniform sky coverage.

The LAT’s PSF will be ~3.5º at 100 MeV, <0.15º at 10 GeV (68% containment radius) with significant tails that will decrease as a power law with radius. LAT sources will be observed against a bright spatially varying Galactic and isotropic Extragalactic diffuse background. The average LAT count rate from astrophysical sources (including the background) will be 2-3 counts/s.

Most persistent sources will be observed by the LAT at a variety of detector orientations; each count must be analyzed using the response function appropriate for the detector orientation when the count was detected. Counts from different sources, including the diffuse background, will often overlap.

The Standard Analysis Environment. The GSSC will provide a suite of data analysis tools and libraries for use in analyzing the GLAST data called the Standard Analysis Environment (SAE) which is being developed by the instrument teams with assistance from the GSSC.

General Analysis: The SAE will consist of several general purpose tools to assist in analyzing data including a data sub-selection tool, tools to generate source models and extract source parameters from existing catalogs, and the workhorse of the GLAST data analysis, the Likelihood
tool to perform maximum likelihood fits of the data with the specified models (see below). The suite also provides an event binning tool to create time, energy and spatially binned data sets and tools to compute exposure and response matrices.

GRBs: The SAE will provide several tools to assist in the study of Gamma-ray bursts including tools for spectral and temporal data analysis and model fitting as well as tools for generating the necessary response functions and binning events for analyzing GLAST data with existing tools
such as XSPEC. These tools can be used to analyze both LAT and GBM data, either individually or simultaneously.

Pulsars: The SAE will provide a number of tools to assist in pulsar analysis including a barycenter arrival time correction tool, period search and profiling tools, and a pulsar ephemeris extraction tool to retrieve pulsar ephemerides from a pulsar database.

Data Simulation: The SAE also provides an observation simulator that can simulate LAT data based on an input source model and optional spacecraft orbit profile.

FTOOLS—The SAE will be standard FTOOLS. A GUI interface will also be provided. Generic FTOOLS utilities can be used on the GLAST data files.

Documentation—The GSSC website will provide online and printable manuals including an Installation Guide, reference manual (description of all inputs to each tool), analysis threads (step-by-step examples), and a detailed manual (the methodology implemented in each tool).

Likelihood Tools
The LAT’s large effective area, but low angular resolution, especially at low energies, means that many sources will be detected but that their PSFs will merge at low energies. Therefore, source analysis must include both spectral, spatial, and possibly temporal information. Since the LAT will
usually survey the sky, a source will be also observed at different instrument orientations. Consequently, the source model will have many parameters.

For a typical analysis the source model must include: all point sources within a few PSF radii of the region of interest; diffuse sources (e.g., supernova remnants); diffuse spatially variable Galactic emission (which must be modeled); and diffuse isotropic extragalactic emission. A very
large data space results. Even with 105 counts, this data space will be sparsely populated.
Therefore maximum likelihood tools are the foundation of our analyses (e.g., detecting sources, determining source intensities, fitting spectral parameters, setting upper limits). The likelihood is the probability of the data (the counts that were detected) given the model (the photon sources).

The data consist of both the counts that were detected, and the regions of parameter space where counts were not observed. A comparison of the likelihood for different models (e.g., with and without an additional point source) will indicate which model is preferred. The best-fit model
parameters and their confidence regions will be calculated from the likelihood as a function of the model parameters.

GLAST Data Products - Where to get:

from GSSC's LAT Data Server:

LAT Events. Full detailed description of events (particles and gamma-rays) reconstructed by the LAT.

LAT Photons. LAT events identified as photons. This will be the main data product of the GLAST mission.

LAT Spacecraft File. Record of pointing, instrument mode, and livetime in 30s intervals.

from HEASARC's Browse:

LAT Burst Catalog. Derived parameters for GRBs detected by the LAT.

LAT Point Source Catalog. Table of detected sources with derived information.

LAT Transient Catalog. Derived parameters for transient sources (AGN, solar flares, etc.) detected by the LAT.

Pulsar Ephemerides for pulsars that may be detectable by the LAT.

=====

GBM Burst Catalog and Data. Derived
parameters (fluence, peak flux, etc.)
including light curves and spectral fits and
data (accumulated counts, etc.) for GRBs.
GBM Daily Data. Accumulated counts,
position and attitude history, etc. for each
day of the mission.
GBM Trigger Catalog. Derived
parameters and data for all triggers.
Similar to the Burst Catalog.
GBM Burst Spectra Catalog.
Catalog of Burst with deconvolved GBM
spectra.

CALDB

LAT Instrument Response Functions. Data necessary to calculate response functions.

=========

GBM Calibration Files and PHA Lookup
tables. Data necessary to calculate
response functions and channel to energy
conversions.

from GSSC's Website:

Lists of all accepted and executed
ToO requests and their status.

GCN Notices and circulars generated by
GLAST.

Long (annual) and short (weekly) term
Science Timelines describing where the
spacecraft was and will be pointing.

Interstellar emission model for diffuse
Galactic and extragalactic gamma ray
emission.

Links:

Possible Resources: