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Ted Habermann, The HDF Group

Fifteen years ago, NASA selected HDF as the format for the data products produced by NASA Satellites for the NASA Earth Observing System (EOS).

The HDF Earth Science Program is well aware of this important legacy.  We focus on continuing support of U.S. environmental satellite programs (NASA Earth Observing System and Joint Polar Satellite System, JPSS), on-going quality assurance of the HDF libraries and helping data users access and understand products written in HDF. The HDF-EOS Information Center (#hdfeos) includes code examples in MATLAB, IDL, NCL, and Python, many driven by user questions.  The site also provides information on other HDF tools.

The Moderate Resolution Imaging Spectro-radiometer, MODIS, can see the Earth  in true color as it appears from the satellite Terra.  It also measures an unprecedented number of parameters related to global change including ocean plant life, cloud properties, atmospheric particulates (aerosols) and land surface change.   Image courtesy NASA and the MODIS instrument team.

NASA’s decision ensured a role for HDF in Earth Science and set an important precedent.  HDF developers, along with the U.S. and other Earth Observing nations, developed a clear distinction between Earth Science Data Objects (grids, swaths, profiles…); the metadata required to describe them; and the HDF objects (datasets, groups, attributes, etc.) that make them up.

The critical realization was that communities like EOS needed conventions for describing Earth Science objects to enable using and sharing those objects. These conventions, termed HDF-EOS, have been used successfully in hundreds of NASA products that can be easily shared among multiple users using standard tools.

Many other Earth Science communities have used the powerful combination of conventions and HDF. 

March 20, 2015

Quincey Koziol, The HDF Group

Oil Rig, Rice oil and gas

Photo from nasa.gov

Perhaps the original producers of “big data,” the oil & gas (O&G) industry held its eighth annual High-Performance Computing (HPC) workshop in early March. Hosted by Rice University, the workshop brings in attendees from both the HPC and petroleum industries.

Jan Odegard, the workshop organizer, invited me to the workshop to give a tutorial and short update on HDF5.

The workshop (#oghpc) has grown a great deal during the last few years and now has more than 500 people attending, with preliminary attendance numbers for this year’s workshop over 575 people (even in a “down” year for the industry).  In fact, Jan’s pushing it to a “conference” next year, saying, “any workshop with more attendees than Congress is really a conference.” But it’s still a small enough crowd and venue that most people know each other well, both on the Oil & Gas and HPC sides.

The workshop program had two main tracks, one on HPC-oriented technologies that support the industry, and one on oil & gas technologies and how they can leverage HPC.  The HPC track is interesting, but mostly “practical” and not research-oriented, unlike, for example, the SC technical track. The oil & gas track seems more research-focused, in ways that can enable the industry to be more productive.

I gave an hour and a half tutorial on developing and tuning parallel HDF5 applications, which

March 18, 2015

The HDF Group’s mission is to provide high quality software for managing large complex data, to provide outstanding services for users of these technologies, and to insure effective management of data throughout the data life cycle....

March 4, 2015
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