PureHDF.VOL.Hsds 1.0.0-alpha.25

This is a prerelease version of PureHDF.VOL.Hsds.
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// Install PureHDF.VOL.Hsds as a Cake Addin
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GitHub Actions NuGet

A pure C# library without native dependencies that makes reading of HDF5 files (groups, datasets, attributes, links, ...) very easy.

The minimum supported target framework is .NET Standard 2.0 which includes

  • .NET Framework 4.6.1+
  • .NET Core (all versions)
  • .NET 5+

This library runs on all platforms (ARM, x86, x64) and operating systems (Linux, Windows, MacOS, Raspbian, etc) that are supported by the .NET ecosystem without special configuration.

The implemention follows the HDF5 File Format Specification (HDF5 1.10).

Overwhelmed by the number of different HDF 5 libraries? Here is a comparison table.


  1. Objects
  2. Attributes
  3. Data
  4. Data Selection / Data Slicing
  5. Filters
  6. Reading Compound Data
  7. Reading Multidimensional Data
  8. Concurrency
  9. Amazon S3
  10. Highly Scalable Data Service (HSDS)
  11. Intellisense
  12. Unsupported Features
  13. Comparison Table

1 Objects

// open HDF5 file, the returned H5File instance represents the root group ('/')
using var root = H5File.OpenRead(filePath);

1.1 Get Object


// get nested group
var group = root.Group("/my/nested/group");


// get dataset in group
var dataset = group.Dataset("myDataset");

// alternatively, use the full path
var dataset = group.Dataset("/my/nested/group/myDataset");

Commited Data Type

// get commited data type in group
var commitedDatatype = group.CommitedDatatype("myCommitedDatatype");

Any Object Type

When you do not know what kind of link to expect at a given path, use the following code:

// get H5Object (base class of all HDF5 object types)
var myH5Object = group.Get("/path/to/unknown/object");

1.2 Additional Info


Iterate through all links in a group:

foreach (var link in group.Children())
    var message = link switch
        IH5Group group               => $"I am a group and my name is '{group.Name}'.",
        IH5Dataset dataset           => $"I am a dataset, call me '{dataset.Name}'.",
        IH5CommitedDatatype datatype => $"I am the data type '{datatype.Name}'.",
        IH5UnresolvedLink lostLink   => $"I cannot find my link target =( shame on '{lostLink.Name}'."
        _                           => throw new Exception("Unknown link type")


An IH5UnresolvedLink becomes part of the Children collection when a symbolic link is dangling, i.e. the link target does not exist or cannot be accessed.

External Files

There are multiple mechanisms in HDF5 that allow one file to reference another file. The external file resolution algorithm is specific to each of these mechanisms:

Type Documentation Algorithm Environment variable
External Link Link Link HDF5_EXT_PREFIX
External Dataset Storage Link Link HDF5_EXTFILE_PREFIX
Virtual Datasets Link Link HDF5_VDS_PREFIX


External Link

using PureHDF.VOL.Native;

var group = (INativeGroup)root.Group(...);

var linkAccess = new H5LinkAccess(
    ExternalLinkPrefix: prefix 

var dataset = group.Dataset(path, linkAccess);

External Dataset Storage

using PureHDF.VOL.Native;

var dataset = (INativeDataset)root.Dataset(...);

var datasetAccess = new H5DatasetAccess(
    ExternalFilePrefix: prefix 

var data = dataset.Read<float>(..., datasetAccess: datasetAccess);

Virtual Datasets

using PureHDF.VOL.Native;

var dataset = (INativeDataset)root.Dataset(...);

var datasetAccess = new H5DatasetAccess(
    VirtualPrefix: prefix 

var data = dataset.Read<float>(..., datasetAccess: datasetAccess);

2. Attributes

// get attribute of group
var attribute = group.Attribute("myAttributeOnAGroup");

// get attribute of dataset
var attribute = dataset.Attribute("myAttributeOnADataset");

3. Data

The following code samples work for datasets as well as attributes.

// class: fixed-point

    var data = dataset.Read<int>();

// class: floating-point

    var data = dataset.Read<double>();

// class: string

    var data = dataset.ReadString();

// class: bitfield

    enum SystemStatus : ushort /* make sure the enum in HDF file is based on the same type */
        MainValve_Open          = 0x0001
        AuxValve_1_Open         = 0x0002
        AuxValve_2_Open         = 0x0004
        MainEngine_Ready        = 0x0008
        FallbackEngine_Ready    = 0x0010
        // ...

    var data = dataset.Read<SystemStatus>();
    var readyToLaunch = data[0].HasFlag(SystemStatus.MainValve_Open | SystemStatus.MainEngine_Ready);

// class: opaque

    var data = dataset.Read<byte>();
    var data = dataset.Read<MyOpaqueStruct>();

// class: compound

    /* option 1 (faster) */
    var data = dataset.Read<MyNonNullableStruct>();
    /* option 2 (slower, for more info see the link below after this code block) */
    var data = dataset.ReadCompound<MyNullableStruct>();

// class: reference

    var data = dataset.Read<H5ObjectReference>();
    var firstRef = data.First();

    /* NOTE: Dereferencing would be quite fast if the object's name
     * was known. Instead, the library searches recursively for the  
     * object. Do not dereference using a parent (group) that contains
     * any circular soft links. Hard links are no problem.

    /* option 1 (faster) */
    var firstObject = directParent.Get(firstRef);

    /* option 1 (slower, use if you don't know the objects parent) */
    var firstObject = root.Get(firstRef);

// class: enumerated

    enum MyEnum : short /* make sure the enum in HDF file is based on the same type */
        MyValue1 = 1,
        MyValue2 = 2,
        // ...

    var data = dataset.Read<MyEnum>();

// class: variable length

    var data = dataset.ReadString();

// class: array

    var data = dataset
        /* dataset dims = int[2, 3] */
        /*   array dims = int[4, 5] */
        .ToArray4D(2, 3, 4, 5);

// class: time
// -> not supported (reason: the HDF5 C lib itself does not fully support H5T_TIME)

For more information on compound data, see section Reading compound data.

4. Data Selection / Data Slicing

4.1 Overview

Data selection is one of the strengths of HDF5 and is applicable to all dataset types (contiguous, compact and chunked). With PureHDF, the full dataset can be read with a simple call to dataset.Read(). However, if you want to read only parts of the dataset, selections are your friend.

PureHDF supports three types of selections. These are:

Type Description
HyperslabSelection A hyperslab is a selection of elements from a hyper rectangle.<br />HDF5 User's Guide > Hyperslab Selection
PointSelection Selects a collection of points.<br />HDF5 User's Guide > Select Points
DelegateSelection This selection accepts a custom walker which selects the user defined points or blocks.

4.2 Examples

Selections can be passed to the read method to avoid reading the full dataset like this:

var fileSelection = ...;
var data = dataset.Read<int>(fileSelection: fileSelection);

Alternatively, if the selection should not be applied to the file but to the memory buffer, use the memorySelection parameter:

var memorySelection = ...;
var data = dataset.Read<int>(memorySelection: memorySelection);

All parameters are optional. For example, when the fileSelection parameter is ommited, the whole dataset will be read. Note that the number of data points in the file selection must always match that of the memory selection.

Note: There are overload methods that allow you to provide your own buffer.

Point selection

Point selections require a two-dimensional n x m array where n is the number of points and m the rank of the dataset. Here is an example with four points to select data from a dataset of rank = 3.

var selection = new PointSelection(new ulong[,] {
    { 00, 00, 00 },
    { 00, 05, 10 },
    { 12, 01, 10 },
    { 05, 07, 09 }

Hyperslab selection

A hyperslab selection can be used to select a contiguous block of elements or to select multiple blocks.

The simplest example is a selection for a 1-dimensional dataset at a certain offset (start: 10) and a certain length (block: 50):

var fileSelection = new HyperslabSelection(start: 10, block: 50);

The following - more advanced - example shows selecions for a three-dimensional dataset (source) and a two-dimensional memory buffer (target):

var dataset = root.Dataset("myDataset");
var memoryDims = new ulong[] { 75, 25 };

var datasetSelection = new HyperslabSelection(
    rank: 3,
    starts: new ulong[] { 2, 2, 0 },
    strides: new ulong[] { 5, 8, 2 },
    counts: new ulong[] { 5, 3, 2 },
    blocks: new ulong[] { 3, 5, 2 }

var memorySelection = new HyperslabSelection(
    rank: 2,
    starts: new ulong[] { 2, 1 },
    strides: new ulong[] { 35, 17 },
    counts: new ulong[] { 2, 1 },
    blocks: new ulong[] { 30, 15 }

var result = dataset
        fileSelection: datasetSelection,
        memorySelection: memorySelection,
        memoryDims: memoryDims
    .ToArray2D(75, 25);

Delegate selection

A delegate accepts a custom walker function which select blocks of data at certain coordinates. Here is an example which selects a total number of 11 elements from a 3-dimensional dataset:

static IEnumerable<Step> Walker(ulong[] datasetDimensions)
    yield return new Step() { Coordinates = new ulong[] { 00, 00, 00 }, ElementCount = 1 };
    yield return new Step() { Coordinates = new ulong[] { 00, 05, 10 }, ElementCount = 5 };
    yield return new Step() { Coordinates = new ulong[] { 12, 01, 10 }, ElementCount = 2 };
    yield return new Step() { Coordinates = new ulong[] { 05, 07, 09 }, ElementCount = 3 };

var selection = new DelegateSelection(totalElementCount: 11, Walker);

4.3 Experimental: IQueryable (1-dimensional data only)

Another way to build the file selection is to invoke the AsQueryable method which can then be used as follows:

var result = dataset.AsQueryable<int>()
    .Skip(5)    // start
    .Stride(5)  // stride
    .Repeat(2)  // count
    .Take(3)    // block

All methods are optional, i.e. the code

var result = dataset.AsQueryable<int>()

will simply skip the first 5 elements and return the rest of the dataset.

This way of building a hyperslab / selection has been implemented in an efford to provide a more .NET-like experience when working with data.

5. Filters

5.1 Built-in Filters

  • Shuffle (hardware accelerated<sup>1</sup>, SSE2/AVX2)
  • Fletcher32
  • Deflate (zlib)
  • Scale-Offset

<sup>1</sup> NET Standard 2.1 and above

5.2 External Filters

Before you can use external filters, you need to register them using H5Filter.Register(...). This method accepts a filter identifier, a filter name and the actual filter function.

This function could look like the following and should be adapted to your specific filter library:

public static FilterFunc MyFilterFunc { get; } = (flags, parameters, buffer) =>
    // Decompressing
    if (flags.HasFlag(H5FilterFlags.Decompress))
        // pseudo code
        byte[] decompressedData = MyFilter.Decompress(parameters, buffer.Span);
        return decompressedData;
    // Compressing
        throw new Exception("Writing data chunks is not yet supported by PureHDF.");

5.3 Supported External Filters

Deflate (Intel ISA-L)

dotnet add package PureHDF.Filters.Deflate.ISA-L

using PureHDF.Filters;

    identifier: H5FilterID.Deflate, 
    name: "deflate", 
    filterFunction: H5DeflateISAL.FilterFunction);

Deflate (SharpZipLib)

dotnet add package PureHDF.Filters.Deflate.SharpZipLib

using PureHDF.Filters;

    identifier: H5FilterID.Deflate, 
    name: "deflate", 
    filterFunction: H5DeflateSharpZipLib.FilterFunction);

Blosc / Blosc2

dotnet add package PureHDF.Filters.Blosc2

using PureHDF.Filters;

    identifier: (H5FilterID)32001, 
    name: "blosc2", 
    filterFunction: H5Blosc2.FilterFunction);

BZip2 (SharpZipLib)

dotnet add package PureHDF.Filters.BZip2.SharpZipLib

using PureHDF.Filters;

    identifier: (H5FilterID)307, 
    name: "bzip2", 
    filterFunction: H5BZip2SharpZipLib.FilterFunction);


dotnet add package PureHDF.Filters.LZF

using PureHDF.Filters;

    identifier: (H5FilterID)32000,
    name: "lzf", 
    filterFunction: H5Lzf.FilterFunction);

6. Reading Compound Data

There are three ways to read structs which are explained in the following sections. Here is an overview:

method return value speed restrictions
Read<T>() T fast predefined type with correct field offsets required; nullable fields are not allowed
ReadCompound<T>() T slow predefined type with matching names required
ReadCompound() Dictionary<string, object> slow -

6.1 Structs without nullable fields

Structs without any nullable fields (i.e. no strings and other reference types) can be read like any other dataset using a high performance copy operation:

[StructLayout(LayoutKind.Explicit, Size = 5)]
struct SimpleStruct
    public byte ByteValue;

    public ushort UShortValue;

    public TestEnum EnumValue;

var compoundData = dataset.Read<SimpleStruct>();

Just make sure the field offset attributes matches the field offsets defined in the HDF5 file when the dataset was created.

This method does not require that the structs field names match since they are simply mapped by their offset.

If your struct contains an array of fixed size (here: 3), you would need to add the unsafe modifier to the struct definition and define the struct as follows:

[StructLayout(LayoutKind.Explicit, Size = 8)]
unsafe struct SimpleStructWithArray
    // ... all the fields from the struct above, plus:

    public fixed float FloatArray[3];

var compoundData = dataset.Read<SimpleStruct>();

6.2 Structs with nullable fields (strings, arrays)

If you have a struct with string or normal array fields, you need to use the slower ReadCompound method:

struct NullableStruct
    public float FloatValue;
    public string StringValue1;
    public string StringValue2;
    public byte ByteValue;
    public short ShortValue;

    [MarshalAs(UnmanagedType.ByValArray, SizeConst = 3)]
    public float[] FloatArray;

var compoundData = dataset.ReadCompound<NullableStruct>();
var compoundData = attribute.ReadCompound<NullableStruct>();
  • Please note the use of the MarshalAs attribute on the array property. This attribute tells the runtime that this array is of fixed size (here: 3) and that it should be treated as value which is embedded into the struct instead of being a separate object.

  • Nested structs with nullable fields are not supported with this method.

  • Arrays with nullable element type are not supported with this method.

  • It is mandatory that the field names match exactly those in the HDF5 file. If you would like to use custom field names, consider the following approach:

// Apply the H5NameAttribute to the field with custom name.
struct NullableStructWithCustomFieldName
    public float FloatValueWithCustomName;

    // ... more fields

// Create a name translator.
Func<FieldInfo, string> converter = fieldInfo =>
    var attribute = fieldInfo.GetCustomAttribute<H5NameAttribute>(true);
    return attribute is not null ? attribute.Name : fieldInfo.Name;

// Use that name translator.
var compoundData = dataset.ReadCompound<NullableStructWithCustomFieldName>(converter);

6.3 Unknown structs

You have no idea how the struct in the H5 file looks like? Or it is so large that it is no fun to predefine it? In that case, you can fall back to the non-generic dataset.ReadCompound() which returns a Dictionary<string, object?>[] where the dictionary values can be anything from simple value types to arrays or nested dictionaries (or even H5ObjectReference), depending on the kind of data in the file. Use the standard .NET dictionary methods to work with these kind of data.

The type mapping is as follows:

H5 type .NET type
fixed point, 1 byte, unsigned byte
fixed point, 1 byte, signed sbyte
fixed point, 2 bytes, unsigned ushort
fixed point, 2 bytes, signed short
fixed point, 4 bytes, unsigned uint
fixed point, 4 bytes, signed int
fixed point, 8 bytes, unsigned ulong
fixed point, 8 bytes, signed long
floating point, 4 bytes float
floating point, 8 bytes, double
string string
bitfield byte[]
opaque byte[]
compound Dictionary<string, object?>
reference H5ObjectReference
enumerated <base type>
variable length, type = string string
array <base type>[]

Not supported data types like time and variable length type = sequence will be represented as null.

7 Reading Multidimensional Data

7.1 Generic Method

Sometimes you want to read the data as multidimensional arrays. In that case use one of the T[] overloads like ToArray3D (there are overloads up to 6D). Here is an example:

var data3D = dataset
    .ToArray3D(new long[] { -1, 7, 2 });

The methods accepts a long[] with the new array dimensions. This feature works similar to Matlab's reshape function. A slightly adapted citation explains the behavior:

When you use -1 to automatically calculate a dimension size, the dimensions that you do explicitly specify must divide evenly into the number of elements in the input array.

7.2 High-Performance Method (2D only)

The previously shown method (ToArrayXD) performs a copy operation. If you would like to avoid this, you might find the Span2D type interesting which is part of the CommunityToolkit.HighPerformance. To make use of it, run dotnet add package CommunityToolkit.HighPerformance and then use it like this:

using CommunityToolkit.HighPerformance;

data2D = dataset
    .AsSpan2D(height: 20, width: 10);

No data is being copied and you can work with the array similar to a normal Span<T>, i.e. you may want to slice through it.

8 Concurrency

Reading data from a dataset is thread-safe in the following cases, depending on the type of H5File constructor method you used:

Open(string) Open(MemoryMappedViewAccessor) Open(Stream)
.NET 4+ x x
.NET 6+ ✓ (if: Stream is FileStream or AmazonS3Stream)

The multi-threading support comes without significant usage of locking. Currently only the global heap cache uses thread synchronization primitives.

Currently the default SimpleChunkCache is not thread safe and therefore every read operation must use its own cache (which is the default). This will be solved in a future release.

8.1 Multi-Threading (Memory-Mapped File)

If you have opened a file as memory-mapped file, you may read the data in parallel like this:

const ulong TOTAL_ELEMENT_COUNT = xxx;
const ulong SEGMENT_COUNT = xxx;

using var mmf = MemoryMappedFile.CreateFromFile(FILE_PATH);
using var accessor = mmf.CreateViewAccessor();
using var file = H5File.Open(accessor);

var dataset = file.Dataset("xxx");
var buffer = new float[TOTAL_ELEMENT_COUNT];

Parallel.For(0, SEGMENT_COUNT, i =>
    var start = i * SEGMENT_SIZE;
    var partialBuffer = buffer.Slice(start, length: SEGMENT_SIZE);
    var fileSelection = new HyperslabSelection(start, block: SEGMENT_SIZE)

    dataset.Read<float>(partialBuffer, fileSelection);

8.2 Multi-Threading (FileStream) (.NET 6+)

Starting with .NET 6, there is a new API to access files in a thread-safe way which PureHDF utilizes. The process to load data in parallel is similar to the memory-mapped file approach above:

const ulong TOTAL_ELEMENT_COUNT = xxx;
const ulong SEGMENT_COUNT = xxx;

using var file = H5File.OpenRead(FILE_PATH);

var dataset = file.Dataset("xxx");
var buffer = new float[TOTAL_ELEMENT_COUNT];

Parallel.For(0, SEGMENT_COUNT, i =>
    var start = i * SEGMENT_SIZE;
    var partialBuffer = buffer.Slice(start, length: SEGMENT_SIZE);
    var fileSelection = new HyperslabSelection(start, block: SEGMENT_SIZE)

    dataset.Read<float>(partialBuffer, fileSelection);

8.3 Async (.NET 6+)

PureHDF supports reading data asynchronously to allow the CPU work on other tasks while waiting for the result.

Note: All async methods shown below are only truly asynchronous if the FileStream is opened with the useAsync parameter set to true:

var h5File = H5File.Open(
    useAsync: true);

// alternative
var stream = new FileStream(..., useAsync: true);
var h5File = H5File.Open(stream);

Sample 1: Load data of two datasets

async Task LoadDataAsynchronously()
    var data1Task = dataset1.ReadAsync<int>();
    var data2Task = dataset2.ReadAsync<int>();

    await Task.WhenAll(data1Task, data2Task);

Sample 2: Load data of two datasets and process it

async Task LoadAndProcessDataAsynchronously()
    var processedData1Task = Task.Run(async () => 
        var data1 = await dataset1.ReadAsync<int>();

    var processedData2Task = Task.Run(async () => 
        var data2 = await dataset2.ReadAsync<int>();

    await Task.WhenAll(processedData1Task, processedData2Task);

Sample 3: Load data of a single dataset and process it

async Task LoadAndProcessDataAsynchronously()
    var processedData1Task = Task.Run(async () => 
        var fileSelection1 = new HyperslabSelection(start: 0, block: 50);
        var data1 = await dataset1.ReadAsync<int>(fileSelection1);


    var processedData2Task = Task.Run(async () => 
        var fileSelection2 = new HyperslabSelection(start: 50, block: 50);
        var data2 = await dataset2.ReadAsync<int>(fileSelection2);


    await Task.WhenAll(processedData1Task, processedData2Task);

9 Amazon S3

.NET Standard 2.1+

dotnet add package PureHdf.VFD.AmazonS3

using PureHDF.VFD.AmazonS3

// adapt to your needs
var credentials = new AnonymousAWSCredentials();
var region = RegionEndpoint.EUWest1;
var client = new AmazonS3Client(credentials, region);
var s3Stream = new AmazonS3Stream(client, bucketName: "xxx", key: "yyy");

using var file = H5File.Open(s3Stream);

Note: The AmazonS3Stream caches S3 responses in cache slots of 1 MB by default (use the constructor overload to customize this). Data read from datasets is not being cached to keep the cache small but still useful.

10 Highly Scalable Data Service (HSDS)

.NET 6+

This HsdsConnector shown below uses the HsdsClient from this project. Please follow that link for information about authentication.

var domainName = "/shared/tall.h5";
var client = new HsdsClient(new Uri("http://hsdshdflab.hdfgroup.org"));
var root = HsdsConnector.Create(domainName, client);
var group = root.Group("/my-group");
// continue here as usual

Note: The following features are not (yet) implemented:

  • IH5Attribute
    • Read compounds
    • Read strings and other variable-length data types
  • IH5Dataset:
    • Read compounds
    • Read strings and other variable-length data types
    • Memory selections
  • IH5DataType:
    • Size property (the HSDS REST API does not seem to provide that information)
    • data type properties other than integer, float and compound
  • IH5FillValue

Please file a new issue if you encounter any problems.

11 Intellisense

.NET 5+

11.1 Introduction

Consider the following H5 file:

HDF View

If you would like to access sub_dataset2 you would normally do

    using var h5File = H5File.OpenRead(FILE_PATH);
    var dataset = h5File.Group("group1").Dataset("sub_dataset2");

When you have files with a large number of groups or a deep hierarchy and you often need to work on different paths within the file, it could very useful to get intellisense support from your favourite IDE which helps you navigating through the file.

PureHDF utilizes the source generator feature introduced with .NET 5 which allows to generate additional code during compilation. The generator, which comes with the PureHDF.SourceGenerator package, enables you to interact with the H5 file like this:

var dataset = bindings.group1.sub_dataset2;

11.2 Getting Started

Run the following command:

dotnet add package PureHDF.SourceGenerator
dotnet restore

Note: Make sure that all project dependencies are restored before you continue.

Then define the path to your H5 file from which the bindings should be generated and use it in combination with the H5SourceGenerator attribute:

using PureHDF;

[H5SourceGenerator(filePath: Program.FILE_PATH)]
internal partial class MyGeneratedH5Bindings {};

static class Program
    public const string FILE_PATH = "myFile.h5";

    static void Main()
        using var h5File = H5File.OpenRead(FILE_PATH);
        var bindings = new MyGeneratedH5Bindings(h5File);
        var myDataset = bindings.group1.sub_dataset2;

Your IDE should now run the source generator behind the scenes and you should be able to get intellisense support:


In case you do not want to access the dataset but the parent group instead, use the Get() method like this:

var myGroup = bindings.group1.Get();

Note: Invalid characters like spaces will be replaced by underscores.

12 Unsupported Features

The following features are not (yet) supported:

  • Virtual datasets with unlimited dimensions
  • Filters: N-bit, SZIP

13 Comparison Table

The following table considers only projects listed on Nuget.org.

Name Arch Platform Kind Mode Version License Maintainer Comment
PureHDF all all managed ro 1.10.* MIT Apollo3zehn
HDF5-CSharp x86,x64 Win,Lin,Mac HL rw 1.10.6 MIT LiorBanai
SciSharp.Keras.HDF5 x86,x64 Win,Lin,Mac HL rw 1.10.5 MIT SciSharp fork of HDF-CSharp
ILNumerics.IO.HDF5 x64 Win,Lin HL rw ? proprietary IL_Numerics_GmbH probably 1.10
LiteHDF x86,x64 Win,Lin,Mac HL ro 1.10.5 MIT silkfire
hdflib x86,x64 Windows HL wo 1.10.6 MIT bdebree
Mbc.Hdf5Utils x86,x64 Win,Lin,Mac HL rw 1.10.6 Apache-2.0 bqstony
HDF.PInvoke x86,x64 Windows bindings rw 1.8,1.10.6 HDF5 hdf,gheber
HDF.PInvoke.1.10 x86,x64 Win,Lin,Mac bindings rw 1.10.6 HDF5 hdf,Apollo3zehn
HDF.PInvoke.NETStandard x86,x64 Win,Lin,Mac bindings rw 1.10.5 HDF5 surban
HDF5DotNet.x64 x64 Windows HL rw 1.8 HDF5 thieum
HDF5DotNet.x86 x86 Windows HL rw 1.8 HDF5 thieum
sharpHDF x64 Windows HL rw 1.8 MIT bengecko
HDF.PInvoke x86,x64 Windows bindings rw 1.8,1.10.6 HDF5 hdf,gheber
hdf5-v120-complete x86,x64 Windows native rw 1.8 HDF5 daniel.gracia
hdf5-v120 x86,x64 Windows native rw 1.8 HDF5 keen


Term .NET API Native dependencies
managed high-level none
HL high-level C-library
bindings low-level C-library
native none C-library
Product Compatible and additional computed target framework versions.
.NET net6.0 is compatible.  net6.0-android was computed.  net6.0-ios was computed.  net6.0-maccatalyst was computed.  net6.0-macos was computed.  net6.0-tvos was computed.  net6.0-windows was computed.  net7.0 was computed.  net7.0-android was computed.  net7.0-ios was computed.  net7.0-maccatalyst was computed.  net7.0-macos was computed.  net7.0-tvos was computed.  net7.0-windows was computed.  net8.0 was computed.  net8.0-android was computed.  net8.0-browser was computed.  net8.0-ios was computed.  net8.0-maccatalyst was computed.  net8.0-macos was computed.  net8.0-tvos was computed.  net8.0-windows was computed. 
Compatible target framework(s)
Included target framework(s) (in package)
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Version Downloads Last updated
2.1.0 45 6/28/2024
2.0.1 40 6/26/2024
2.0.0 41 6/24/2024
1.0.0 46 6/24/2024
1.0.0-beta.27 44 6/21/2024
1.0.0-beta.26 42 6/18/2024
1.0.0-beta.25 37 6/14/2024
1.0.0-beta.24 37 6/13/2024
1.0.0-beta.23 43 5/30/2024
1.0.0-beta.22 44 5/29/2024
1.0.0-beta.21 44 5/28/2024
1.0.0-beta.20 39 5/28/2024
1.0.0-beta.19 51 5/27/2024
1.0.0-beta.18 51 5/20/2024
1.0.0-beta.17 39 5/16/2024
1.0.0-beta.16 20 5/3/2024
1.0.0-beta.15 29 5/1/2024
1.0.0-beta.14 49 4/25/2024
1.0.0-beta.13 42 4/25/2024
1.0.0-beta.12 54 4/12/2024
1.0.0-beta.11 44 4/10/2024
1.0.0-beta.10 54 3/27/2024
1.0.0-beta.9 60 3/25/2024
1.0.0-beta.8 52 3/20/2024
1.0.0-beta.7 48 3/11/2024
1.0.0-beta.6 48 3/11/2024
1.0.0-beta.5 61 2/2/2024
1.0.0-beta.4 52 1/26/2024
1.0.0-beta.3 51 1/19/2024
1.0.0-beta.2 80 9/15/2023
1.0.0-beta.1 71 9/9/2023
1.0.0-alpha.25 104 3/23/2023