def WideResnet(n_blocks=3, widen_factor=1, n_output_classes=10, mode='train'): """WideResnet from https://arxiv.org/pdf/1605.07146.pdf. Args: n_blocks: int, number of blocks in a group. total layers = 6n + 4. widen_factor: int, widening factor of each group. k=1 is vanilla resnet. n_output_classes: int, number of distinct output classes. mode: Whether we are training or evaluating or doing inference. Returns: The list of layers comprising a WideResnet model with the given parameters. """ return tl.Model( tl.ToFloat(), tl.Conv(16, (3, 3), padding='SAME'), WideResnetGroup(n_blocks, 16 * widen_factor, mode=mode), WideResnetGroup(n_blocks, 32 * widen_factor, (2, 2), mode=mode), WideResnetGroup(n_blocks, 64 * widen_factor, (2, 2), mode=mode), tl.BatchNorm(mode=mode), tl.Relu(), tl.AvgPool(pool_size=(8, 8)), tl.Flatten(), tl.Dense(n_output_classes), tl.LogSoftmax(), )
def WideResnet(n_blocks=3, d_hidden=64, n_output_classes=10, mode='train'): """WideResnet from https://arxiv.org/pdf/1605.07146.pdf. Args: n_blocks: int, number of blocks in a group. d_hidden: Dimensionality of the first hidden layer (multiplied later). n_output_classes: int, number of distinct output classes. mode: Whether we are training or evaluating or doing inference. Returns: The list of layers comprising a WideResnet model with the given parameters. """ del mode return tl.Model( tl.ToFloat(), tl.Conv(d_hidden, (3, 3), padding='SAME'), WideResnetGroup(n_blocks, d_hidden), WideResnetGroup(n_blocks, d_hidden * 2, (2, 2)), WideResnetGroup(n_blocks, d_hidden * 4, (2, 2)), tl.BatchNorm(), tl.Relu(), tl.AvgPool(pool_size=(8, 8)), tl.Flatten(), tl.Dense(n_output_classes), tl.LogSoftmax(), )
def WideResnet(num_blocks=3, hidden_size=64, num_output_classes=10, mode='train'): """WideResnet from https://arxiv.org/pdf/1605.07146.pdf. Args: num_blocks: int, number of blocks in a group. hidden_size: the size of the first hidden layer (multiplied later). num_output_classes: int, number of classes to distinguish. mode: is it training or eval. Returns: The WideResnet model with given layer and output sizes. """ del mode return tl.Serial( tl.Conv(hidden_size, (3, 3), padding='SAME'), WideResnetGroup(num_blocks, hidden_size), WideResnetGroup(num_blocks, hidden_size * 2, (2, 2)), WideResnetGroup(num_blocks, hidden_size * 4, (2, 2)), tl.BatchNorm(), tl.Relu(), tl.AvgPool(pool_size=(8, 8)), tl.Flatten(), tl.Dense(num_output_classes), tl.LogSoftmax() )
def Resnet50(d_hidden=64, n_output_classes=1001, mode='train'): """ResNet. Args: d_hidden: Dimensionality of the first hidden layer (multiplied later). n_output_classes: Number of distinct output classes. mode: Whether we are training or evaluating or doing inference. Returns: The list of layers comprising a ResNet model with the given parameters. """ return tl.Model( tl.ToFloat(), tl.Conv(d_hidden, (7, 7), (2, 2), 'SAME'), tl.BatchNorm(mode=mode), tl.Relu(), tl.MaxPool(pool_size=(3, 3), strides=(2, 2)), ConvBlock(3, [d_hidden, d_hidden, 4 * d_hidden], (1, 1), mode=mode), IdentityBlock(3, [d_hidden, d_hidden, 4 * d_hidden], mode=mode), IdentityBlock(3, [d_hidden, d_hidden, 4 * d_hidden], mode=mode), ConvBlock(3, [2 * d_hidden, 2 * d_hidden, 8 * d_hidden], (2, 2), mode=mode), IdentityBlock(3, [2 * d_hidden, 2 * d_hidden, 8 * d_hidden], mode=mode), IdentityBlock(3, [2 * d_hidden, 2 * d_hidden, 8 * d_hidden], mode=mode), IdentityBlock(3, [2 * d_hidden, 2 * d_hidden, 8 * d_hidden], mode=mode), ConvBlock(3, [4 * d_hidden, 4 * d_hidden, 16 * d_hidden], (2, 2), mode=mode), IdentityBlock(3, [4 * d_hidden, 4 * d_hidden, 16 * d_hidden], mode=mode), IdentityBlock(3, [4 * d_hidden, 4 * d_hidden, 16 * d_hidden], mode=mode), IdentityBlock(3, [4 * d_hidden, 4 * d_hidden, 16 * d_hidden], mode=mode), IdentityBlock(3, [4 * d_hidden, 4 * d_hidden, 16 * d_hidden], mode=mode), IdentityBlock(3, [4 * d_hidden, 4 * d_hidden, 16 * d_hidden], mode=mode), ConvBlock(3, [8 * d_hidden, 8 * d_hidden, 32 * d_hidden], (2, 2), mode=mode), IdentityBlock(3, [8 * d_hidden, 8 * d_hidden, 32 * d_hidden], mode=mode), IdentityBlock(3, [8 * d_hidden, 8 * d_hidden, 32 * d_hidden], mode=mode), tl.AvgPool(pool_size=(7, 7)), tl.Flatten(), tl.Dense(n_output_classes), tl.LogSoftmax(), )
def Resnet50(hidden_size=64, num_output_classes=1001, mode='train'): """ResNet. Args: hidden_size: the size of the first hidden layer (multiplied later). num_output_classes: how many classes to distinguish. mode: whether we are training or evaluating or doing inference. Returns: The ResNet model with the given layer and output sizes. """ del mode return tl.Serial( tl.Conv(hidden_size, (7, 7), (2, 2), 'SAME'), tl.BatchNorm(), tl.Relu(), tl.MaxPool(pool_size=(3, 3), strides=(2, 2)), ConvBlock(3, [hidden_size, hidden_size, 4 * hidden_size], (1, 1)), IdentityBlock(3, [hidden_size, hidden_size, 4 * hidden_size]), IdentityBlock(3, [hidden_size, hidden_size, 4 * hidden_size]), ConvBlock(3, [2 * hidden_size, 2 * hidden_size, 8 * hidden_size], (2, 2)), IdentityBlock(3, [2 * hidden_size, 2 * hidden_size, 8 * hidden_size]), IdentityBlock(3, [2 * hidden_size, 2 * hidden_size, 8 * hidden_size]), IdentityBlock(3, [2 * hidden_size, 2 * hidden_size, 8 * hidden_size]), ConvBlock(3, [4 * hidden_size, 4 * hidden_size, 16 * hidden_size], (2, 2)), IdentityBlock(3, [4 * hidden_size, 4 * hidden_size, 16 * hidden_size]), IdentityBlock(3, [4 * hidden_size, 4 * hidden_size, 16 * hidden_size]), IdentityBlock(3, [4 * hidden_size, 4 * hidden_size, 16 * hidden_size]), IdentityBlock(3, [4 * hidden_size, 4 * hidden_size, 16 * hidden_size]), IdentityBlock(3, [4 * hidden_size, 4 * hidden_size, 16 * hidden_size]), ConvBlock(3, [8 * hidden_size, 8 * hidden_size, 32 * hidden_size], (2, 2)), IdentityBlock(3, [8 * hidden_size, 8 * hidden_size, 32 * hidden_size]), IdentityBlock(3, [8 * hidden_size, 8 * hidden_size, 32 * hidden_size]), tl.AvgPool(pool_size=(7, 7)), tl.Flatten(), tl.Dense(num_output_classes), tl.LogSoftmax())