[svn-r7450] Purpose:

    Add document describing issues relating to variable-length datatypes.

2 files changed, 156 insertions, 0 deletions

diff --git a/doc/html/TechNotes.html b/doc/html/TechNotes.html
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@@ -237,6 +237,11 @@ HDF5 Technical Notes  
     Results of reviewing tests for API functions.
 </td></tr>
 
+<tr><td valign=top><a href="TechNotes/VLTypes.html">Variable-Length Datatype Info</a>
+    </td><td>&nbsp;</td><td valign=top>
+    Description of various aspects of using variable-length datatypes in HDF5.
+</td></tr>
+
 </table>
 </center>
 
diff --git a/doc/html/TechNotes/VLTypes.html b/doc/html/TechNotes/VLTypes.html
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+<html>
+  <head>
+    <title>
+      Variable-Length Datatypes in HDF5
+    </title>
+
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+
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+           
+    <!-- #BeginLibraryItem "/ed_libs/styles_Format.lbi" -->
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+    <link href="ed_styles/FormatElect.css" rel="stylesheet" type="text/css">
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+  </head>
+
+  <body bgcolor="#FFFFFF">
+    <H3>Introduction</H3>
+    <P>Variable-length (VL) datatypes have a great deal of flexibility, but can
+        be over- or mis-used.  VL datatypes are ideal at capturing the notion
+        that elements in an HDF5 dataset (or attribute) can have different
+        amounts of information (VL strings are the canonical example),
+        but they have some drawbacks that this document attempts
+        to address.
+    </P>
+
+    <H3>Background</H3>
+    <P>Because fast random access to dataset elements requires that each
+        element be a fixed size, the information stored for VL datatype elements
+        is actually information to locate the VL information, not
+        the information itself.
+    </P>
+
+    <H3>When to use VL datatypes</H3>
+    <P>VL datatypes are designed allow the amount of data stored in each
+        element of a dataset to vary.  This change could be
+        over time as new values, with different lengths, were written to the
+        element.  Or, the change can be over "space" - the dataset's space,
+        with each element in the dataset having the same fundamental type, but
+        different lengths.  "Ragged arrays" are the classic example of elements
+        that change over the "space" of the dataset.  If the elements of a
+        dataset are not going to change over "space" or time, a VL datatype
+        should probably not be used.
+    </P>
+
+    <H3>Access Time Penalty</H3>
+    <P>Accessing VL information requires reading the element in the file, then
+        using that element's location information to retrieve the VL
+        information itself.
+        In the worst case, this obviously doubles the number of disk accesses
+        required to access the VL information.
+    </P>
+    <P>However, in order to avoid this extra disk access overhead, the HDF5
+        library groups VL information together into larger blocks on disk and
+        performs I/O only on those larger blocks.  Additionally, these blocks of
+        information are cached in memory as long as possible.  For most access
+        patterns, this amortizes the extra disk accesses over enough pieces of
+        VL information to hide the extra overhead involved.
+    </P>
+
+    <H3>Storage Space Penalty</H3>
+    <P>Because VL information must be located and retrieved from another
+        location in the file, extra information must be stored in the file to
+        locate 
+        each item of VL information (i.e. each element in a dataset or each
+        VL field in a compound datatype, etc.).
+        Currently, that extra information amounts to 32 bytes per VL item.
+    </P>
+    <P>
+        With some judicious re-architecting of the library and file format,
+        this could be reduced to 18 bytes per VL item with no loss in
+        functionality or additional time penalties.  With some additional
+        effort, the space could perhaps could be pushed down as low as 8-10
+        bytes per VL item with no loss in functionality, but potentially a
+        small time penalty.
+    </P>
+
+    <H3>Chunking and Filters</H3>
+    <P>Storing data as VL information has some affects on chunked storage and
+        the filters that can be applied to chunked data.  Because the data that
+        is stored in each chunk is the location to access the VL information,
+        the actual VL information is not broken up into chunks in the same way
+        as other data stored in chunks.  Additionally, because the
+        actual VL information is not stored in the chunk, any filters which
+        operate on a chunk will operate on the information to
+        locate the VL information, not the VL information itself.
+    </P>
+
+    <H3>File Drivers</H3>
+    <P>Because the parallel I/O file drivers (MPI-I/O and MPI-posix) don't
+        allow objects with varying sizes to be created in the file, attemping
+        to create
+        a dataset or attribute with a VL datatype in a file managed by those
+        drivers will cause the creation call to fail.
+    </P>
+    <P>Additionally, using
+        VL datatypes and the 'multi' and 'split' file drivers may not operate
+        in the manner desired.  The HDF5 library currently categorizes the
+        "blocks of VL information" stored in the file as a type of metadata,
+        which means that they may not be stored with the other raw data for
+        the file.
+    </P>
+
+    <H3>Rewriting</H3>
+    <P>When VL information in the file is re-written, the old VL information
+        must be releases, space for the new VL information allocated and
+        the new VL information must be written to the file.  This may cause
+        additional I/O accesses.
+    </P>
+
+  </body>
+
+</html>
+