class Partial_conv3(nn.Module): def __init__(self, dim, n_div, forward): super().__init__() self.dim_conv3 = dim // n_div self.dim_untouched = dim - self.dim_conv3 self.partial_conv3 = nn.Conv2d(self.dim_conv3, self.dim_conv3, 3, 1, 1, bias=False) if forward == 'slicing': self.forward = self.forward_slicing elif forward == 'split_cat': self.forward = self.forward_split_cat else: raise NotImplementedError def forward_slicing(self, x: Tensor) -> Tensor: # only for inference x = x.clone() # !!! Keep the original input intact for the residual connection later x[:, :self.dim_conv3, :, :] = self.partial_conv3(x[:, :self.dim_conv3, :, :]) return x def forward_split_cat(self, x: Tensor) -> Tensor: x1, x2 = torch.split(x, [self.dim_conv3, self.dim_untouched], dim=1) x1 = self.partial_conv3(x1) x = torch.cat((x1, x2), 1) return x 在这段代码中插入全局平均池化做通道增强的模块

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This file is subject to the terms and conditions of the GNU General Public License. See the file COPYING in the main directory of this archive for more details.

class Partial_conv3(nn.Module): def init(self, dim, n_div, forward): super().init() self.dim_conv3 = dim // n_div self.dim_untouched = dim - self.dim_conv3 self.partial_conv3 = nn.Conv2d(self.dim_conv3, self.dim_conv3, 3, 1, 1, bias=False) self.global_pool = GlobalAvgPool2d() if forward == 'slicing': self.forward = self.forward_slicing elif forward == 'split_cat': self.forward = self.forward_split_cat else: raise NotImplementedError def forward_slicing(self, x: Tensor) -> Tensor: # only for inference x = x.clone() # !!! Keep the original input intact for the residual connection later x[:, :self.dim_conv3, :, :] = self.partial_conv3(x[:, :self.dim_conv3, :, :]) return x def forward_split_cat(self, x: Tensor) -> Tensor: x1, x2 = torch.split(x, [self.dim_conv3, self.dim_untouched], dim=1) x1 = self.global_pool(x1) x1 = self.partial_conv3(x1) x = torch.cat((x1, x2), 1) return x这段代码有什么错误

self.partial_conv3 = nn.Conv2d(self.dim_conv3, self.dim_conv3, 3, 1, 1, bias=False) self.global_pool = GlobalAvgPool2d() self.forward = None if forward == 'slicing': self.forward = self.forward_...

帮我分析以下代码：class PConv(nn.Module): def init(self, dim, ouc, n_div=4, forward='split_cat'): super().init() self.dim_conv3 = dim // n_div self.dim_untouched = dim - self.dim_conv3 self.partial_conv3 = nn.Conv2d(self.dim_conv3, self.dim_conv3, 3, 1, 1, bias=False) self.conv = Conv(dim, ouc, k=1) if forward == 'slicing': self.forward = self.forward_slicing elif forward == 'split_cat': self.forward = self.forward_split_cat else: raise NotImplementedError def forward_slicing(self, x): # only for inference x = x.clone() # !!! Keep the original input intact for the residual connection later x[:, :self.dim_conv3, :, :] = self.partial_conv3(x[:, :self.dim_conv3, :, :]) x = self.conv(x) return x def forward_split_cat(self, x): # for training/inference x1, x2 = torch.split(x, [self.dim_conv3, self.dim_untouched], dim=1) x1 = self.partial_conv3(x1) x = torch.cat((x1, x2), 1) x = self.conv(x) return x

然后，定义了一个 nn.Conv2d 类型的卷积层 partial_conv3，该层的输入通道数和输出通道数都是 dim_conv3，卷积核大小为 3，步长为 1，填充为 1，不使用偏置。接着，定义了一个 Conv 类型的卷积层 conv，该层的输入...

self.dim_conv3 = dim // n_div self.dim_untouched = dim - self.dim_conv3 self.partial_conv3 = nn.Conv2d(self.dim_conv3, self.dim_conv3, 3, 1, 1, bias=False) self.global_pool = GlobalAvgPool2d()

这段代码中，首先计算了dim除以n_div的结果dim_conv3，然后用dim减去dim_conv3得到了另一个值dim_untouched。接下来，使用nn.Conv2d定义了一个输入通道数和输出通道数都为dim_conv3的卷积层partial...

如何将self.conv1 = nn.Conv2d(4 * num_filters, num_filters, kernel_size=3, padding=1) self.conv_offset1 = nn.Conv2d(512, 18, kernel_size=3, stride=1, padding=1) init_offset1 = torch.Tensor(np.zeros([18, 512, 3, 3])) self.conv_offset1.weight = torch.nn.Parameter(init_offset1) # 初始化为0 self.conv_mask1 = nn.Conv2d(512, 9, kernel_size=3, stride=1, padding=1) init_mask1 = torch.Tensor(np.zeros([9, 512, 3, 3]) + np.array([0.5])) self.conv_mask1.weight = torch.nn.Parameter(init_mask1) # 初始化为0.5 与torchvision.ops.deform_conv2d，加入到：class NLayerDiscriminator(nn.Module): def init(self, input_nc=3, ndf=64, n_layers=3, norm_layer=nn.BatchNorm2d, use_sigmoid=False, use_parallel=True): super(NLayerDiscriminator, self).init() self.use_parallel = use_parallel if type(norm_layer) == functools.partial: use_bias = norm_layer.func == nn.InstanceNorm2d else: use_bias = norm_layer == nn.InstanceNorm2d kw = 4 padw = int(np.ceil((kw-1)/2)) sequence = [ nn.Conv2d(input_nc, ndf, kernel_size=kw, stride=2, padding=padw), nn.LeakyReLU(0.2, True) ] nf_mult = 1 for n in range(1, n_layers): nf_mult_prev = nf_mult nf_mult = min(2n, 8) sequence += [ nn.Conv2d(ndf * nf_mult_prev, ndf * nf_mult, kernel_size=kw, stride=2, padding=padw, bias=use_bias), norm_layer(ndf * nf_mult), nn.LeakyReLU(0.2, True) ] nf_mult_prev = nf_mult nf_mult = min(2n_layers, 8) sequence += [ nn.Conv2d(ndf * nf_mult_prev, ndf * nf_mult, kernel_size=kw, stride=1, padding=padw, bias=use_bias), norm_layer(ndf * nf_mult), nn.LeakyReLU(0.2, True) ] sequence += [nn.Conv2d(ndf * nf_mult, 1, kernel_size=kw, stride=1, padding=padw)] if use_sigmoid: sequence += [nn.Sigmoid()] self.model = nn.Sequential(*sequence) def forward(self, input): return self.model(input)中，请给出修改后的代码

def __init__(self, input_nc=3, ndf=64, n_layers=3, norm_layer=nn.BatchNorm2d, use_sigmoid=False, use_parallel=True): super(NLayerDiscriminator, self).__init__() self.use_parallel = use_parallel if...

class CSPDarkNet(nn.Module):

self.conv3 = nn.Conv2d(hidden_channels, hidden_channels, 3, padding=1, groups=n, bias=False) self.bn3 = nn.BatchNorm2d(hidden_channels) self.conv4 = nn.Conv2d(hidden_channels, hidden_channels, 1, ...

Defines the PatchGAN discriminator with the specified arguments. class NLayerDiscriminator(nn.Module): def init(self, input_nc=3, ndf=64, n_layers=3, norm_layer=nn.BatchNorm2d, use_sigmoid=False, use_parallel=True): super(NLayerDiscriminator, self).init() self.use_parallel = use_parallel if type(norm_layer) == functools.partial: use_bias = norm_layer.func == nn.InstanceNorm2d else: use_bias = norm_layer == nn.InstanceNorm2d self.conv1 = nn.Conv2d(input_nc, ndf, kernel_size=3, padding=1) self.conv_offset1 = nn.Conv2d(ndf, 18, kernel_size=3, stride=1, padding=1) init_offset1 = torch.Tensor(np.zeros([18, ndf, 3, 3])) self.conv_offset1.weight = torch.nn.Parameter(init_offset1) # 初始化为0 self.conv_mask1 = nn.Conv2d(ndf, 9, kernel_size=3, stride=1, padding=1) init_mask1 = torch.Tensor(np.zeros([9, ndf, 3, 3]) + np.array([0.5])) self.conv_mask1.weight = torch.nn.Parameter(init_mask1) # 初始化为0.5 kw = 4 padw = int(np.ceil((kw-1)/2)) nf_mult = 1 for n in range(1, n_layers): nf_mult_prev = nf_mult nf_mult = min(2n, 8) self.sequence2 = [ nn.Conv2d(ndf * nf_mult_prev, ndf * nf_mult, kernel_size=kw, stride=2, padding=padw, bias=use_bias), norm_layer(ndf * nf_mult), nn.LeakyReLU(0.2, True) ] nf_mult_prev = nf_mult nf_mult = min(2n_layers, 8) self.sequence2 += [ nn.Conv2d(ndf * nf_mult_prev, ndf * nf_mult, kernel_size=kw, stride=1, padding=padw, bias=use_bias), norm_layer(ndf * nf_mult), nn.LeakyReLU(0.2, True) ] self.sequence2 += [nn.Conv2d(ndf * nf_mult, 1, kernel_size=kw, stride=1, padding=padw)] if use_sigmoid: self.sequence2 += [nn.Sigmoid()] def forward(self, input): input = self.conv1(input) offset1 = self.conv_offset1(input) mask1 = torch.sigmoid(self.conv_mask1(input)) sequence1 = [ torchvision.ops.deform_conv2d(input=input, offset=offset1, weight=self.conv1.weight, mask=mask1, padding=(1, 1)) 上述代码中出现错误：RuntimeError: Expected weight_c.size(1) * n_weight_grps == input_c.size(1) to be true, but got false. (Could this error message be improved? If so, please report an enhancement request to PyTorch.)，请问如何解决，给出修改后的代码

def __init__(self, input_nc=3, ndf=64, n_layers=3, norm_layer=nn.BatchNorm2d, use_sigmoid=False, use_parallel=True): super(NLayerDiscriminator, self).__init__() self.use_parallel = use_parallel if...

class NLayerDiscriminator(nn.Module): def init(self, input_nc=3, ndf=64, n_layers=3, norm_layer=nn.BatchNorm2d, use_sigmoid=False, use_parallel=True): super(NLayerDiscriminator, self).init() self.use_parallel = use_parallel if type(norm_layer) == functools.partial: use_bias = norm_layer.func == nn.InstanceNorm2d else: use_bias = norm_layer == nn.InstanceNorm2d self.conv1 = nn.Conv2d(input_nc, ndf, kernel_size=3, padding=1) self.conv_offset1 = nn.Conv2d(ndf, 18, kernel_size=3, stride=1, padding=1) init_offset1 = torch.Tensor(np.zeros([18, ndf, 3, 3])) self.conv_offset1.weight = torch.nn.Parameter(init_offset1) # 初始化为0 self.conv_mask1 = nn.Conv2d(ndf, 9, kernel_size=3, stride=1, padding=1) init_mask1 = torch.Tensor(np.zeros([9, ndf, 3, 3]) + np.array([0.5])) self.conv_mask1.weight = torch.nn.Parameter(init_mask1) # 初始化为0.5 kw = 4 padw = int(np.ceil((kw-1)/2)) nf_mult = 1 for n in range(1, n_layers): nf_mult_prev = nf_mult nf_mult = min(2n, 8) self.sequence2 = [ nn.Conv2d(ndf * nf_mult_prev, ndf * nf_mult, kernel_size=kw, stride=2, padding=padw, bias=use_bias), norm_layer(ndf * nf_mult), nn.LeakyReLU(0.2, True) ] nf_mult_prev = nf_mult nf_mult = min(2n_layers, 8) self.sequence2 += [ nn.Conv2d(ndf * nf_mult_prev, ndf * nf_mult, kernel_size=kw, stride=1, padding=padw, bias=use_bias), norm_layer(ndf * nf_mult), nn.LeakyReLU(0.2, True) ] self.sequence2 += [nn.Conv2d(ndf * nf_mult, 1, kernel_size=kw, stride=1, padding=padw)] if use_sigmoid: self.sequence2 += [nn.Sigmoid()] def forward(self, input): input = self.conv1(input) offset1 = self.conv_offset1(input) mask1 = torch.sigmoid(self.conv_mask1(input)) sequence1 = [ torchvision.ops.deform_conv2d(input=input, offset=offset1, weight=self.conv1.weight, mask=mask1, padding=(1, 1)) ] sequence2 = sequence1 + self.sequence2 self.model = nn.Sequential(sequence2) nn.LeakyReLU(0.2, True) return self.model(input)，上述代码中：出现错误：torchvision.ops.deform_conv2d(input=input, offset=offset1,RuntimeError: Expected weight_c.size(1) n_weight_grps == input_c.size(1) to be true, but got false. (Could this error message be improved? If so, please report an enhancement request to PyTorch.)

def __init__(self, input_nc=3, ndf=64, n_layers=3, norm_layer=nn.BatchNorm2d, use_sigmoid=False, use_parallel=True): super(NLayerDiscriminator, self).__init__() self.use_parallel = use_parallel if...

def init(self, input_nc=3, ndf=64, n_layers=3, norm_layer=nn.BatchNorm2d, use_sigmoid=False, use_parallel=True): super(NLayerDiscriminator, self).init() self.use_parallel = use_parallel if type(norm_layer) == functools.partial: use_bias = norm_layer.func == nn.InstanceNorm2d else: use_bias = norm_layer == nn.InstanceNorm2d self.conv1 = nn.Conv2d(input_nc, ndf, kernel_size=3, padding=1) self.conv_offset1 = nn.Conv2d(512, 18, kernel_size=3, stride=1, padding=1) init_offset1 = torch.Tensor(np.zeros([18, 512, 3, 3])) self.conv_offset1.weight = torch.nn.Parameter(init_offset1) # 初始化为0 self.conv_mask1 = nn.Conv2d(512, 9, kernel_size=3, stride=1, padding=1) init_mask1 = torch.Tensor(np.zeros([9, 512, 3, 3]) + np.array([0.5])) self.conv_mask1.weight = torch.nn.Parameter(init_mask1) # 初始化为0.5 def forward(self, input): input = self.conv1(input) offset1 = self.conv_offset1(input) mask1 = torch.sigmoid(self.conv_mask1(input)) sequence1 = [ torchvision.ops.deform_conv2d(input=input, offset=offset1, weight=self.conv1.weight, mask=mask1, padding=(1, 1)) ] sequence2 = sequence1 + self.sequence2 self.model = nn.Sequential(*sequence2) nn.LeakyReLU(0.2, True) return self.model(input)，上述代码出现问题：RuntimeError: Given groups=1, weight of size [18, 512, 3, 3], expected input[1, 64, 512, 512] to have 512 channels, but got 64 channels instead，如何修改

def __init__(self, input_nc=3, ndf=64, n_layers=3, norm_layer=nn.BatchNorm2d, use_sigmoid=False, use_parallel=True): super(NLayerDiscriminator, self).__init__() self.use_parallel = use_parallel if ...

ModuleNotFoundError: No module named 'sklearn.inspection_partial_dependence'

这个报错是因为你的环境中缺少sklearn.inspection这个模块。根据你提供的信息，你的sklearn版本是0.20.3...更新完scikit-learn库后，再次导入plot_partial_dependence模块应该就不会出现ModuleNotFoundError的报错了。

AttributeError: module 'statsmodels.api' has no attribute 'partial_corr'

partial_corr函数在较新的statsmodels版本中被引入，如果你的版本过旧，就会出现该错误。解决方法是更新statsmodels到最新版本。你可以使用以下命令来更新statsmodels： shell pip install statsmodels --upgrade...

class PartialAlexNet(nn.Module): def init(self, # pretrained_path: str = "alex_pretrained/partial.pt"): pretrained_path: str = "partial.pt"): super().init() self.net = nn.Sequential( nn.Conv2d(in_channels=3, out_channels=96, kernel_size=(11, 11), stride=(4, 4), padding=(4, 4)), nn.ReLU(inplace=True), nn.LocalResponseNorm(size=5, alpha=0.0001, beta=0.75, k=2.0), nn.MaxPool2d(kernel_size=3, stride=2), nn.Conv2d(in_channels=96, out_channels=256, kernel_size=5, padding=2, groups=2), nn.ReLU(inplace=True), nn.LocalResponseNorm(size=5, alpha=0.0001, beta=0.75, k=2.0), nn.MaxPool2d(kernel_size=3, stride=2) ) self.net.load_state_dict(torch.load(pretrained_path)) 分析该代码

这段代码定义了一个名为 PartialAlexNet 的类，它继承自 nn.Module。该类的初始化方法接收一个参数 pretrained_path，用于指定预训练模型的路径。在初始化方法中，该类定义了一个名为 net 的属性，它是一个由多个卷...

class Mlp(nn.Module): """ MLP as used in Vision Transformer, MLP-Mixer and related networks """ def init( self, in_features, hidden_features=None, out_features=None, act_layer=nn.GELU, norm_layer=nn.BatchNorm2d, bias=True, drop=0.1, use_conv=False, expan_ratio=6 ): super().init() out_features = out_features or in_features hidden_features = hidden_features or in_features bias = to_2tuple(bias) drop_probs = to_2tuple(drop) linear_layer = partial(nn.Conv2d, kernel_size=1) if use_conv else nn.Linear #self.fc1 = linear_layer(in_features, hidden_features, bias=bias[0]) self.pwconv1 = linear_layer(in_features, expan_ratio * hidden_features,bias=bias[0]) self.act = act_layer() self.drop1 = nn.Dropout(drop_probs[0]) self.norm = norm_layer(hidden_features) if norm_layer is not None else nn.Identity() #self.fc2 = linear_layer(hidden_features, out_features, bias=bias[1]) self.pwconv2 = linear_layer(expan_ratio * hidden_features,out_features,bias=bias[1]) self.drop2 = nn.Dropout(drop_probs[1]) def forward(self, x): B, N, C = x.shape #x = self.fc1(x) x = self.pwconv1(x) x = self.act(x) x = self.drop1(x) #x = self.fc2(x) x = self.pwconv2(x) x = self.drop2(x) return x 哪里有问题

在__init__函数中，使用linear_layer函数创建了两个线性层（或者卷积层，取决于use_conv参数），分别是pwconv1和pwconv2。其中pwconv1将输入特征in_features通过一个扩张系数expan_ratio扩张，输出hidden_features。...

class HorNet(nn.Module): # HorNet # hornet by iscyy/yoloair def init(self, index, in_chans, depths, dim_base, drop_path_rate=0.,layer_scale_init_value=1e-6, gnconv=[ partial(gnconv, order=2, s=1.0/3.0), partial(gnconv, order=3, s=1.0/3.0), partial(gnconv, order=4, s=1.0/3.0), partial(gnconv, order=5, s=1.0/3.0), # GlobalLocalFilter ], ): super().init() dims = [dim_base, dim_base * 2, dim_base * 4, dim_base * 8] self.index = index self.downsample_layers = nn.ModuleList() # stem and 3 intermediate downsampling conv layers hornet by iscyy/air stem = nn.Sequential( nn.Conv2d(in_chans, dims[0], kernel_size=4, stride=4), HorLayerNorm(dims[0], eps=1e-6, data_format="channels_first") ) self.downsample_layers.append(stem) for i in range(3): downsample_layer = nn.Sequential( HorLayerNorm(dims[i], eps=1e-6, data_format="channels_first"), nn.Conv2d(dims[i], dims[i+1], kernel_size=2, stride=2), ) self.downsample_layers.append(downsample_layer) self.stages = nn.ModuleList() # 4 feature resolution stages, each consisting of multiples bind residual blocks dummy dp_rates=[x.item() for x in torch.linspace(0, drop_path_rate, sum(depths))] if not isinstance(gnconv, list): gnconv = [gnconv, gnconv, gnconv, gnconv] else: gnconv = gnconv assert len(gnconv) == 4 cur = 0 for i in range(4): stage = nn.Sequential( *[HorBlock(dim=dims[i], drop_path=dp_rates[cur + j], layer_scale_init_value=layer_scale_init_value, gnconv=gnconv[i]) for j in range(depths[i])]# hornet by iscyy/air ) self.stages.append(stage) cur += depths[i] self.apply(self._init_weights) def _init_weights(self, m): if isinstance(m, (nn.Conv2d, nn.Linear)): nn.init.trunc_normal_(m.weight, std=.02) nn.init.constant_(m.bias, 0) def forward(self, x): x = self.downsample_layers[self.index](x) x = self.stages[self.index](x) return x

这是一个名为HorNet的网络类，它继承自nn.Module。HorNet是一个用于目标检测的神经网络，具体实现了一个由ISCYY/YOLOAIR开发的算法。该网络包括主干网络和特征提取网络。在__init__函数中，HorNet接受一些参数，...

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