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Earth Science Tag

Tobias Weinzierl, Durham University, UK, Sven Köppel, FIAS, Germany, Michael Bader, TUM, Germany, HDF Guest Bloggers ExaHyPE develops a solver engine for hyperbolic differential equations solved on adaptive Cartesian meshes. It supports various HDF5 output formats. Exascale computing is expected to allow scientists and engineers to simulate, and ultimately understand, wave phenomena with unprecedented accuracy over unprecedented time spans. To harvest the power of exascale machines, well-suited software however has to become available. ExaHyPE is a H2020 project writing a PDE solver engine—similar to a 3D computer game engine—that will allow groups with a decent CSE expertise to write their own solver for hyperbolic equation systems within a year. The resulting solver will scale to exascale. This is made possible by the unique...

June 14, 2017

The HDF Server allows producers of complex datasets to share their results with a wide audience base. We used it to develop the Global Fire Emissions Database (GFED) Analysis Tool, a website which guides the user through our dataset. A simple webmap interface allows users to select an area of interest and produce data visualization charts. ...

April 18, 2017

MuQun (Kent) Yang, The HDF Group

Many NASA HDF and HDF5 data products can be visualized via the Hyrax OPeNDAP server through Hyrax’s HDF4 and HDF5 handlers.  Now we’ve enhanced the HDF5 OPeNDAP handler so that SMAP level 1, level 3 and level 4 products can be displayed properly using popular visualization tools.

Organizations in both the public and private sectors use HDF to meet long term, mission-critical data management needs. For example, NASA’s Earth Observing System, the primary data repository for understanding global climate change, uses HDF.  Over the lifetime of the project, which began in 1999, NASA has stored 15 petabytes of satellite data in HDF which will be accessible by NASA data centers and NASA HDF end users for many years to come.

In a previous blog, we discussed the concept of using the Hyrax OPeNDAP web server to serve NASA HDF4 and HDF5 products.  Each year, The HDF Group has enhanced the HDF4 and HDF5 handlers that work within the Hyrax OPeNDAP framework to support all sorts of NASA HDF data products, making them interoperable with popular Earth Science tools such as NASA’s Panoply and UCAR’s IDV.  The Hyrax HDF4 and HDF5 handlers make data products display properly using popular visualization tools. 

April 1, 2016

Lindsay Powers, The HDF Group

The HDF Group is collaborating with the University of California, Santa Barbara and Data Observation Network for Earth (DataONE), to help scientific research communities enhance the consistency and quality of their metadata, to foster discovery, access and understanding of data resources. As part of this collaboration, on February 9, 2016, The HDF Group’s Ted Habermann, Director of Earth Science, and Lindsay Powers, Deputy Director of Earth Science will co-lead a webinar “Sharing Data Through Guided Metadata Improvement” along with Matthew Jones, Director of Informatics Research at the National Center for Ecological Analysis and Synthesis. 

February 1, 2016

Ted Habermann, The HDF Group

The first week of January brought leaders of the Earth Science informatics community together in Washington DC for the winter meeting of the Federation of  Earth Science Information Partners (ESIP Federation). This year NOAA’s Environmental Data Management Workshop was co-located with ESIP for five exciting days of data management ideas and discussions. The HDF Group was well represented at both of these meetings with presentations on metadata and data containers.

The ESIP Federation comes together twice each year to discuss topics around changing technology, data, information and knowledge in support of society. ESIP meetings are interdisciplinary and inclusive. Among the attendees are Earth science data and information technology practitioners; researchers representing a variety of scientific domains that include land, atmosphere, ocean, solid earth, ecology, data and social sciences; science educators; and anyone working in science and technology-related fields who is interested in advancing Earth science information best practices in an open and transparent fashion. 

January 20, 2016

Lindsay Powers, The HDF Group

The 2015 HDF workshop held during the ESIP Summer Meeting was a great success thanks to more than 40 participants throughout the four sessions.  The workshop was an excellent opportunity for us to interact with HDF community members to better understand their needs and introduce them to new technologies. You can view the slide presentations from the workshop here.

From my perspective, the highlight of the workshop was the Vendors and Tools Session where we heard from Ellen Johnson (Mathworks), Christine White (Esri), Brian Tisdale (NASA), and Gerd Heber (The HDF Group) talk about new, and improved applications of HDF technologies.  For example:  

September 16, 2015

Lindsay Powers - The HDF Group The HDF Group provides free, open-source software that is widely used in government, academia and industry. The goal of The HDF Group is to ensure the sustainable development of HDF (Hierarchical Data Format) technologies and the ongoing accessibility of HDF-stored data because users and organizations have mission-critical systems and archives relying on these technologies. These users and organizations are a critical element of the HDF community and an important source of new and innovative uses of, and sustainability for, the HDF platforms, libraries and tools. We want to create a sustainability model for the open access platforms and libraries that can serve these diverse communities in the future use and preservation of their data. As a...

June 8, 2015

 

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