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HDF-EOS Overview and Status

HDF-EOS Overview and Status. Larry Klein Emergent Information Technologies, Inc. September 19, 2000 larry@eos.hitc.com. What is HDF-EOS?. An extension to HDF, built with HDF objects. A standard for data structures for remote sensing data and in-situ measurements with:

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HDF-EOS Overview and Status

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  1. HDF-EOS Overview and Status Larry Klein Emergent Information Technologies, Inc. September 19, 2000 larry@eos.hitc.com

  2. What is HDF-EOS? • An extension to HDF, built with HDF objects. • A standard for data structures for remote sensing data and in-situ measurements with: • Tightly coupled geolocation information • Access based on geolocation • Incorporates ECS metadata attributes. • Used for many EOS standard products.

  3. HDF-EOS File Contents • Global HDF attributes • Core Metadata - searchable attributes, copied in database • Archive Metadata - non-searchable attributes • Any number of HDF objects specifying HDF-EOS objects (Grid, Point, Swath) • Structural metadata - links geolocation to science data • Additional HDF objects.

  4. HDF-EOS Grid Structure • Usage - Data which is organized by regular geographic spacing, specified by projection parameters. • Structure • Any number of 2-D to 8-D data arrays per structure, one per data type (e.g. temperature) • Geolocation information contained in projection formula, coupled by structural metadata. • Any number of Grid structures per file allowed.

  5. Grid Data Example

  6. Grid Data: 1 Km. Digital Elevation Model South Pole

  7. HDF-EOS Swath Structure • Usage - Data which is organized by time, monotonic geolocation, track parameter. Spacing can be irregular. • Structure • Geolocation information stored explictly in Geolocation Field (2-D array) • Data stored in 2-D or 3-D arrays • Time stored in 1-D or 2-D array, TAI is standard. • Geolocation/science data connected by structural metadata

  8. Swath Data Example

  9. HDF-EOS Point Structure • Usage - Data which is specified temporally and/or spatially, but with no particular organization. • Structure • Tables (Vdatas) used to store science data at a particular Lat/Long/Height. • Up to eight levels of data allowed. Structural metadata specifies relationship between levels.

  10. Point Data Example

  11. HDF-EOS Interface Schematic UserApplication HDF-EOS Interface ECS Metadata Interface Grid Point Swath Low Level HDF File I/O

  12. User Interface • Access - Open, close objects/files • Definition - Set key features of data sets • Basic I/O - Read write data • Index I/O - Link tables (Point only) • Inquiry - Return information about data • Subset - Read data from specific region • Metadata access (SDP toolkit)

  13. Current Archive Holdings • GSFC DAAC: MODIS L1, Atmos./Ocean • 50 TB, 105,000 granules, 300 GB/day • will be ~1.3 TB / day with addition of MODIS L2 and EOS Aqua data. • EDC DAAC: Landsat/ASTER/MODIS Land • 20 TB, 106,000 granules, 274 GB/day • Langely DAAC: MISR • 9 TB, 39,000 granules, 88 GB/day

  14. Availability • HDF library - ftp hdf.ncsa.uiuc.edu • HDF-EOS V2.6 library (HDF4 based) • http://newsroom.gsfc.nasa.gov/sdptoolkit/toolkit.html • SDP Toolkit library - same location as HDF-EOS • Platform Support • DEC, HP, IBM, Sun, SGI, Windows, Linux (soon) • Language Support - C, C++, F77, F90 • HDF4-based library will be supported indefinitely

  15. HDF5 - Based Development • NCSA has introduced HDF5 • A complete rewrite of HDF4, a new user interface. • Simplified data model • Breaks 2 GB file size limit • Potential for parallel I/O, multi-threading

  16. HDF5 - Based Development HDF-EOS 3.0 • Development overview • Maintain current HDF-EOS interface to maximum extent • Allow all HDF5 features through interface • Build HDF-EOS (4 to 5) conversion function • Data production executable can be built with either or both HDF4 and HDF5 - based library • Support heterogeneous ECS archive (future)

  17. Design Schematic Common Functions Definition, Access, I/O, Inquiry, Subset User Application HDF-EOS Interface Grid, Point, Swath ECS Metadata Interface HDF4 Interface* HDF5 Interface Combined HDF4/5 Interface* Build Options *Implemented if required

  18. Applications • H5EOSView - EOSView for HDF5 • Java Browser - Browser for both HDF4 and 5 based granules • HDF-EOS 4 to 5 converter, HDF-EOS 2.x to HDF-EOS 3.x

  19. Schedule • Jan., 2000 - Beta Version of library • H5EOSView, Sun, SGI, C support • Oct. 2000 - Beta2 Version • Add F77, F90, DEC support • Local Attributes, ProfileInterface, Chunking/Tiling • HDF-EOS 4 to 5 converter and Java Browser

  20. Schedule (cont.) • Jan. 2001 - SCF version • add HP, IBM, Windows, Linux (maybe a few months later), C++ support • DAAC version (ECS Drop 6B) - Summer 2001. • Archives can contain both HDF4 and HDF5 - based granules. • ECS subsystems don’t crack granules, but regression testing needed. • 2 GB size limit is an issue.

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