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TensorFlow.NET/test/TensorFlowNET.Keras.UnitTest/Layers/Layers.Convolution.Test.cs

Layers.Convolution.Test.cs 6.7 kB
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Added unit tests for Conv2D
4 years ago
linspace and meshgrid.
4 years ago
Added unit tests for Conv2D
4 years ago
Adjust the code structure of keras.unittest.
2 years ago
Added unit tests for Conv2D
4 years ago
Implemented Conv1D and unit tests.
4 years ago
Adjust the code structure of keras.unittest.
2 years ago
Implemented Conv1D and unit tests.
4 years ago
fix NDArray indexing.
4 years ago
Implemented Conv1D and unit tests.
4 years ago
fix BasicConv1D unit test
3 years ago
Implemented Conv1D and unit tests.
4 years ago
fix NDArray indexing.
4 years ago
Implemented Conv1D and unit tests.
4 years ago
Built-in numpy api.
4 years ago
Implemented Conv1D and unit tests.
4 years ago
fix NDArray indexing.
4 years ago
Implemented Conv1D and unit tests.
4 years ago
Built-in numpy api.
4 years ago
Implemented Conv1D and unit tests.
4 years ago
fix NDArray indexing.
4 years ago
Implemented Conv1D and unit tests.
4 years ago
Built-in numpy api.
4 years ago
Implemented Conv1D and unit tests.
4 years ago
fix NDArray indexing.
4 years ago
Implemented Conv1D and unit tests.
4 years ago
Built-in numpy api.
4 years ago
Implemented Conv1D and unit tests.
4 years ago
fix NDArray indexing.
4 years ago
Implemented Conv1D and unit tests.
4 years ago
Built-in numpy api.
4 years ago
Implemented Conv1D and unit tests.
4 years ago
Added unit tests for Conv2D
4 years ago
Added unit tests for Keras Conv2D
4 years ago
Added unit tests for Conv2D
4 years ago
fix NDArray indexing.
4 years ago
Added unit tests for Conv2D
4 years ago
Built-in numpy api.
4 years ago
Added unit tests for Conv2D
4 years ago
Added unit tests for Keras Conv2D
4 years ago
Added unit tests for Conv2D
4 years ago
fix NDArray indexing.
4 years ago
Added unit tests for Conv2D
4 years ago
Built-in numpy api.
4 years ago
Added unit tests for Conv2D
4 years ago
Added unit tests for Keras Conv2D
4 years ago
Added unit tests for Conv2D
4 years ago
fix NDArray indexing.
4 years ago
Added unit tests for Conv2D
4 years ago
Built-in numpy api.
4 years ago
Added unit tests for Conv2D
4 years ago
Added unit tests for Keras Conv2D
4 years ago
Added unit tests for Conv2D
4 years ago
fix NDArray indexing.
4 years ago
Added unit tests for Conv2D
4 years ago
Built-in numpy api.
4 years ago
Added unit tests for Conv2D
4 years ago
Added unit tests for Keras Conv2D
4 years ago
Added unit tests for Conv2D
4 years ago
fix NDArray indexing.
4 years ago
Added unit tests for Conv2D
4 years ago
Built-in numpy api.
4 years ago
Added unit tests for Conv2D
4 years ago
Added unit tests for Keras Conv2D
4 years ago
fix NDArray indexing.
4 years ago
Added unit tests for Keras Conv2D
4 years ago
Built-in numpy api.
4 years ago
Added unit tests for Keras Conv2D
4 years ago
Added unit tests for Conv2D
4 years ago
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  1. using Microsoft.VisualStudio.TestTools.UnitTesting;

  2. using Tensorflow.NumPy;

  3. using static Tensorflow.KerasApi;

  4. 

  5. namespace Tensorflow.Keras.UnitTest.Layers

  6. {

  7.     [TestClass]

  8.     public class LayersConvolutionTest : EagerModeTestBase

  9.     {

  10.         [TestMethod]

  11.         public void BasicConv1D()

  12.         {

  13.             var filters = 8;

  14. 

  15.             var conv = keras.layers.Conv1D(filters, kernel_size: 3, activation: "linear");

  16. 

  17.             var x = np.arange(256.0f).reshape((8, 8, 4));

  18.             var y = conv.Apply(x);

  19. 

  20.             Assert.AreEqual(y.shape, (8, 6, 8));

  21.             Assert.AreEqual(filters, y.shape[2]);

  22.         }

  23. 

  24.         [TestMethod]

  25.         public void BasicConv1D_ksize()

  26.         {

  27.             var filters = 8;

  28. 

  29.             var conv = keras.layers.Conv1D(filters, kernel_size: 3, activation: "linear");

  30. 

  31.             var x = np.arange(256.0f).reshape((8, 8, 4));

  32.             var y = conv.Apply(x);

  33. 

  34.             Assert.AreEqual(3, y.shape.ndim);

  35.             Assert.AreEqual(x.dims[0], y.shape[0]);

  36.             Assert.AreEqual(x.dims[1] - 2, y.shape[1]);

  37.             Assert.AreEqual(filters, y.shape[2]);

  38.         }

  39. 

  40.         [TestMethod]

  41.         public void BasicConv1D_ksize_same()

  42.         {

  43.             var filters = 8;

  44. 

  45.             var conv = keras.layers.Conv1D(filters, kernel_size: 3, padding: "same", activation: "linear");

  46. 

  47.             var x = np.arange(256.0f).reshape((8, 8, 4));

  48.             var y = conv.Apply(x);

  49. 

  50.             Assert.AreEqual(3, y.shape.ndim);

  51.             Assert.AreEqual(x.dims[0], y.shape[0]);

  52.             Assert.AreEqual(x.dims[1], y.shape[1]);

  53.             Assert.AreEqual(filters, y.shape[2]);

  54.         }

  55. 

  56.         [TestMethod]

  57.         public void BasicConv1D_ksize_strides()

  58.         {

  59.             var filters = 8;

  60.             var conv = keras.layers.Conv1D(filters, kernel_size: 3, strides: 2, activation: "linear");

  61. 

  62.             var x = np.arange(256.0f).reshape((8, 8, 4));

  63.             var y = conv.Apply(x);

  64. 

  65.             Assert.AreEqual(3, y.shape.ndim);

  66.             Assert.AreEqual(x.dims[0], y.shape[0]);

  67.             Assert.AreEqual(x.dims[1] - 5, y.shape[1]);

  68.             Assert.AreEqual(filters, y.shape[2]);

  69.         }

  70. 

  71.         [TestMethod]

  72.         public void BasicConv1D_ksize_dilations()

  73.         {

  74.             var filters = 8;

  75.             var conv = keras.layers.Conv1D(filters, kernel_size: 3, dilation_rate: 2, activation: "linear");

  76. 

  77.             var x = np.arange(256.0f).reshape((8, 8, 4));

  78.             var y = conv.Apply(x);

  79. 

  80.             Assert.AreEqual(3, y.shape.ndim);

  81.             Assert.AreEqual(x.dims[0], y.shape[0]);

  82.             Assert.AreEqual(x.dims[1] - 4, y.shape[1]);

  83.             Assert.AreEqual(filters, y.shape[2]);

  84.         }

  85. 

  86.         [TestMethod]

  87.         public void BasicConv1D_ksize_dilation_same()

  88.         {

  89.             var filters = 8;

  90.             var conv = keras.layers.Conv1D(filters, kernel_size: 3, dilation_rate: 2, padding: "same", activation: "linear");

  91. 

  92.             var x = np.arange(256.0f).reshape((8, 8, 4));

  93.             var y = conv.Apply(x);

  94. 

  95.             Assert.AreEqual(3, y.shape.ndim);

  96.             Assert.AreEqual(x.dims[0], y.shape[0]);

  97.             Assert.AreEqual(x.dims[1], y.shape[1]);

  98.             Assert.AreEqual(filters, y.shape[2]);

  99.         }

  100. 

  101.         [TestMethod]

  102.         public void BasicConv2D()

  103.         {

  104.             var filters = 8;

  105.             var conv = keras.layers.Conv2D(filters, activation: "linear");

  106. 

  107.             var x = np.arange(256.0f).reshape((1, 8, 8, 4));

  108.             var y = conv.Apply(x);

  109. 

  110.             Assert.AreEqual(4, y.shape.ndim);

  111.             Assert.AreEqual(x.dims[0], y.shape[0]);

  112.             Assert.AreEqual(x.dims[1] - 4, y.shape[1]);

  113.             Assert.AreEqual(x.dims[2] - 4, y.shape[2]);

  114.             Assert.AreEqual(filters, y.shape[3]);

  115.         }

  116. 

  117.         [TestMethod]

  118.         public void BasicConv2D_ksize()

  119.         {

  120.             var filters = 8;

  121.             var conv = keras.layers.Conv2D(filters, kernel_size: 3, activation: "linear");

  122. 

  123.             var x = np.arange(256.0f).reshape((1, 8, 8, 4));

  124.             var y = conv.Apply(x);

  125. 

  126.             Assert.AreEqual(4, y.shape.ndim);

  127.             Assert.AreEqual(x.dims[0], y.shape[0]);

  128.             Assert.AreEqual(x.dims[1] - 2, y.shape[1]);

  129.             Assert.AreEqual(x.dims[2] - 2, y.shape[2]);

  130.             Assert.AreEqual(filters, y.shape[3]);

  131.         }

  132. 

  133.         [TestMethod]

  134.         public void BasicConv2D_ksize_same()

  135.         {

  136.             var filters = 8;

  137.             var conv = keras.layers.Conv2D(filters, kernel_size: 3, padding: "same", activation: "linear");

  138. 

  139.             var x = np.arange(256.0f).reshape((1, 8, 8, 4));

  140.             var y = conv.Apply(x);

  141. 

  142.             Assert.AreEqual(4, y.shape.ndim);

  143.             Assert.AreEqual(x.dims[0], y.shape[0]);

  144.             Assert.AreEqual(x.dims[1], y.shape[1]);

  145.             Assert.AreEqual(x.dims[2], y.shape[2]);

  146.             Assert.AreEqual(filters, y.shape[3]);

  147.         }

  148. 

  149.         [TestMethod]

  150.         public void BasicConv2D_ksize_strides()

  151.         {

  152.             var filters = 8;

  153.             var conv = keras.layers.Conv2D(filters, kernel_size: 3, strides: 2, activation: "linear");

  154. 

  155.             var x = np.arange(256.0f).reshape((1, 8, 8, 4));

  156.             var y = conv.Apply(x);

  157. 

  158.             Assert.AreEqual(4, y.shape.ndim);

  159.             Assert.AreEqual(x.dims[0], y.shape[0]);

  160.             Assert.AreEqual(x.dims[1] - 5, y.shape[1]);

  161.             Assert.AreEqual(x.dims[2] - 5, y.shape[2]);

  162.             Assert.AreEqual(filters, y.shape[3]);

  163.         }

  164. 

  165.         [TestMethod]

  166.         public void BasicConv2D_ksize_dilation()

  167.         {

  168.             var filters = 8;

  169.             var conv = keras.layers.Conv2D(filters, kernel_size: 3, dilation_rate: 2, activation: "linear");

  170. 

  171.             var x = np.arange(256.0f).reshape((1, 8, 8, 4));

  172.             var y = conv.Apply(x);

  173. 

  174.             Assert.AreEqual(4, y.shape.ndim);

  175.             Assert.AreEqual(x.dims[0], y.shape[0]);

  176.             Assert.AreEqual(x.dims[1] - 4, y.shape[1]);

  177.             Assert.AreEqual(x.dims[2] - 4, y.shape[2]);

  178.             Assert.AreEqual(filters, y.shape[3]);

  179.         }

  180. 

  181.         [TestMethod]

  182.         public void BasicConv2D_ksize_dilation_same()

  183.         {

  184.             var filters = 8;

  185.             var conv = keras.layers.Conv2D(filters, kernel_size: 3, dilation_rate: 2, padding: "same", activation: "linear");

  186. 

  187.             var x = np.arange(256.0f).reshape((1, 8, 8, 4));

  188.             var y = conv.Apply(x);

  189. 

  190.             Assert.AreEqual(4, y.shape.ndim);

  191.             Assert.AreEqual(x.dims[0], y.shape[0]);

  192.             Assert.AreEqual(x.dims[1], y.shape[1]);

  193.             Assert.AreEqual(x.dims[2], y.shape[2]);

  194.             Assert.AreEqual(filters, y.shape[3]);

  195.         }

  196.     }

  197. }

tensorflow框架的.NET版本,提供了丰富的特性和API,可以借此很方便地在.NET平台下搭建深度学习训练与推理流程。