forked from mrq/DL-Art-School
fixes
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3
.gitmodules
vendored
3
.gitmodules
vendored
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@ -1,9 +1,6 @@
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[submodule "flownet2"]
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path = flownet2
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url = https://github.com/NVIDIA/flownet2-pytorch.git
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[submodule "codes/models/switched_conv"]
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path = codes/models/switched_conv
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url = https://github.com/neonbjb/SwitchedConvolutions.git
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[submodule "codes/models/flownet2"]
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path = codes/models/flownet2
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url = https://github.com/neonbjb/flownet2-pytorch.git
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@ -1,280 +0,0 @@
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"""resnet in pytorch
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[1] Kaiming He, Xiangyu Zhang, Shaoqing Ren, Jian Sun.
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Deep Residual Learning for Image Recognition
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https://arxiv.org/abs/1512.03385v1
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"""
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import torch
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import torch.nn as nn
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import torch.distributed as dist
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from models.switched_conv.switched_conv_hard_routing import SwitchNorm, RouteTop1
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from trainer.networks import register_model
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class BasicBlock(nn.Module):
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"""Basic Block for resnet 18 and resnet 34
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"""
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#BasicBlock and BottleNeck block
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#have different output size
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#we use class attribute expansion
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#to distinct
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expansion = 1
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def __init__(self, in_channels, out_channels, stride=1):
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super().__init__()
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#residual function
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self.residual_function = nn.Sequential(
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nn.Conv2d(in_channels, out_channels, kernel_size=3, stride=stride, padding=1, bias=False),
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nn.BatchNorm2d(out_channels),
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nn.ReLU(inplace=True),
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nn.Conv2d(out_channels, out_channels * BasicBlock.expansion, kernel_size=3, padding=1, bias=False),
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nn.BatchNorm2d(out_channels * BasicBlock.expansion)
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)
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#shortcut
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self.shortcut = nn.Sequential()
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#the shortcut output dimension is not the same with residual function
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#use 1*1 convolution to match the dimension
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if stride != 1 or in_channels != BasicBlock.expansion * out_channels:
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self.shortcut = nn.Sequential(
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nn.Conv2d(in_channels, out_channels * BasicBlock.expansion, kernel_size=1, stride=stride, bias=False),
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nn.BatchNorm2d(out_channels * BasicBlock.expansion)
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)
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def forward(self, x):
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return nn.ReLU(inplace=True)(self.residual_function(x) + self.shortcut(x))
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class BottleNeck(nn.Module):
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"""Residual block for resnet over 50 layers
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"""
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expansion = 4
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def __init__(self, in_channels, out_channels, stride=1):
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super().__init__()
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self.residual_function = nn.Sequential(
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nn.Conv2d(in_channels, out_channels, kernel_size=1, bias=False),
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nn.BatchNorm2d(out_channels),
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nn.ReLU(inplace=True),
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nn.Conv2d(out_channels, out_channels, stride=stride, kernel_size=3, padding=1, bias=False),
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nn.BatchNorm2d(out_channels),
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nn.ReLU(inplace=True),
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nn.Conv2d(out_channels, out_channels * BottleNeck.expansion, kernel_size=1, bias=False),
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nn.BatchNorm2d(out_channels * BottleNeck.expansion),
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)
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self.shortcut = nn.Sequential()
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if stride != 1 or in_channels != out_channels * BottleNeck.expansion:
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self.shortcut = nn.Sequential(
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nn.Conv2d(in_channels, out_channels * BottleNeck.expansion, stride=stride, kernel_size=1, bias=False),
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nn.BatchNorm2d(out_channels * BottleNeck.expansion)
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)
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def forward(self, x):
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return nn.ReLU(inplace=True)(self.residual_function(x) + self.shortcut(x))
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class ResNetTail(nn.Module):
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def __init__(self, block, num_block, num_classes=100):
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super().__init__()
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self.in_channels = 64
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self.conv4_x = self._make_layer(block, 128, num_block[2], 2)
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self.conv5_x = self._make_layer(block, 256, num_block[3], 2)
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self.avg_pool = nn.AdaptiveAvgPool2d((1, 1))
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self.fc = nn.Linear(256 * block.expansion, num_classes)
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def _make_layer(self, block, out_channels, num_blocks, stride):
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strides = [stride] + [1] * (num_blocks - 1)
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layers = []
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for stride in strides:
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layers.append(block(self.in_channels, out_channels, stride))
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self.in_channels = out_channels * block.expansion
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return nn.Sequential(*layers)
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def forward(self, x):
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output = self.conv4_x(x)
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output = self.conv5_x(output)
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output = self.avg_pool(output)
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output = output.view(output.size(0), -1)
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output = self.fc(output)
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return output
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class DropoutNorm(SwitchNorm):
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def __init__(self, group_size, dropout_rate, accumulator_size=256, eps=1e-6):
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super().__init__(group_size, accumulator_size)
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self.accumulator_desired_size = accumulator_size
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self.group_size = group_size
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self.dropout_rate = dropout_rate
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self.register_buffer("accumulator_index", torch.zeros(1, dtype=torch.long, device='cpu'))
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self.register_buffer("accumulator_filled", torch.zeros(1, dtype=torch.long, device='cpu'))
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self.register_buffer("accumulator", torch.zeros(accumulator_size, group_size))
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self.eps = eps
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def add_norm_to_buffer(self, x):
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flatten_dims = [0] + [k+2 for k in range(len(x.shape)-2)]
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flat = x.mean(dim=flatten_dims)
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self.accumulator[self.accumulator_index] = flat.detach().clone()
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self.accumulator_index += 1
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if self.accumulator_index >= self.accumulator_desired_size:
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self.accumulator_index *= 0
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if self.accumulator_filled <= 0:
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self.accumulator_filled += 1
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# Input into forward is a switching tensor of shape (batch,groups,<misc>)
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def forward(self, x: torch.Tensor):
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assert len(x.shape) >= 2
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if not self.training:
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return x
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# Only accumulate the "winning" switch slots.
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mask = torch.nn.functional.one_hot(x.argmax(dim=1), num_classes=x.shape[1])
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if len(x.shape) > 2:
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mask = mask.permute(0, 3, 1, 2) # TODO: Make this more extensible.
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xtop = torch.ones_like(x)
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xtop[mask != 1] = 0
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# Push the accumulator to the right device on the first iteration.
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if self.accumulator.device != xtop.device:
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self.accumulator = self.accumulator.to(xtop.device)
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self.add_norm_to_buffer(xtop)
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# Reduce across all distributed entities, if needed
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if dist.is_available() and dist.is_initialized():
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dist.all_reduce(self.accumulator, op=dist.ReduceOp.SUM)
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self.accumulator /= dist.get_world_size()
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# Compute the dropout probabilities. This module is a no-op before the accumulator is initialized.
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if self.accumulator_filled > 0:
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with torch.no_grad():
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probs = torch.mean(self.accumulator, dim=0) * self.dropout_rate
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bs, br = x.shape[:2]
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drop = torch.rand((bs, br), device=x.device) > probs.unsqueeze(0)
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# Ensure that there is always at least one switch left un-dropped out
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fix_blank = (drop.sum(dim=1, keepdim=True) == 0).repeat(1, br)
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drop = drop.logical_or(fix_blank)
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x_dropped = drop * x + ~drop * -1e20
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x = x_dropped
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return x
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class HardRoutingGate(nn.Module):
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def __init__(self, breadth, fade_steps=10000, dropout_rate=.8):
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super().__init__()
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self.norm = DropoutNorm(breadth, dropout_rate, accumulator_size=128)
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self.fade_steps = fade_steps
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self.register_buffer("last_step", torch.zeros(1, dtype=torch.long, device='cpu'))
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def forward(self, x):
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if self.last_step < self.fade_steps:
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x = torch.randn_like(x) * (self.fade_steps - self.last_step) / self.fade_steps + \
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x * self.last_step / self.fade_steps
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self.last_step = self.last_step + 1
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soft = nn.functional.softmax(self.norm(x), dim=1)
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return RouteTop1.apply(soft)
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class ResNet(nn.Module):
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def __init__(self, block, num_block, num_classes=100, num_tails=8):
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super().__init__()
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self.in_channels = 32
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self.conv1 = nn.Sequential(
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nn.Conv2d(3, 32, kernel_size=3, padding=1, bias=False),
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nn.BatchNorm2d(32),
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nn.ReLU(inplace=True))
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self.conv2_x = self._make_layer(block, 32, num_block[0], 1)
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self.conv3_x = self._make_layer(block, 64, num_block[1], 2)
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self.tails = nn.ModuleList([ResNetTail(block, num_block, 256) for _ in range(num_tails)])
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self.selector = ResNetTail(block, num_block, num_tails)
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self.selector_gate = nn.Linear(256, 1)
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self.gate = HardRoutingGate(num_tails, dropout_rate=2)
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self.final_linear = nn.Linear(256, num_classes)
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def _make_layer(self, block, out_channels, num_blocks, stride):
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strides = [stride] + [1] * (num_blocks - 1)
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layers = []
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for stride in strides:
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layers.append(block(self.in_channels, out_channels, stride))
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self.in_channels = out_channels * block.expansion
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return nn.Sequential(*layers)
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def get_debug_values(self, step, __):
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logs = {'histogram_switch_usage': self.latest_masks}
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return logs
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def forward(self, x, coarse_label, return_selector=False):
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output = self.conv1(x)
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output = self.conv2_x(output)
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output = self.conv3_x(output)
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keys = []
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for t in self.tails:
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keys.append(t(output))
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keys = torch.stack(keys, dim=1)
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query = self.selector(output).unsqueeze(2)
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selector = self.selector_gate(query * keys).squeeze(-1)
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selector = self.gate(selector)
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self.latest_masks = (selector.max(dim=1, keepdim=True)[0].repeat(1,8) == selector).float().argmax(dim=1)
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values = self.final_linear(selector.unsqueeze(-1) * keys)
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if return_selector:
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return values.sum(dim=1), selector
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else:
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return values.sum(dim=1)
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#bs = output.shape[0]
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#return (tailouts[coarse_label] * torch.eye(n=bs, device=x.device).view(bs,bs,1)).sum(dim=1)
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@register_model
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def register_cifar_resnet18_branched(opt_net, opt):
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""" return a ResNet 18 object
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"""
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return ResNet(BasicBlock, [2, 2, 2, 2])
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def resnet34():
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""" return a ResNet 34 object
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"""
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return ResNet(BasicBlock, [3, 4, 6, 3])
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def resnet50():
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""" return a ResNet 50 object
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"""
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return ResNet(BottleNeck, [3, 4, 6, 3])
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def resnet101():
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""" return a ResNet 101 object
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"""
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return ResNet(BottleNeck, [3, 4, 23, 3])
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def resnet152():
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""" return a ResNet 152 object
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"""
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return ResNet(BottleNeck, [3, 8, 36, 3])
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if __name__ == '__main__':
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model = ResNet(BasicBlock, [2,2,2,2])
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for j in range(10):
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v = model(torch.randn(256,3,32,32), None)
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print(model.get_debug_values(0, None))
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print(v.shape)
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l = nn.MSELoss()(v, torch.randn_like(v))
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l.backward()
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@ -11,7 +11,6 @@ from torchvision.models.resnet import Bottleneck
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from models.arch_util import make_layer, default_init_weights, ConvGnSilu, ConvGnLelu
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from trainer.networks import register_model
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from utils.util import checkpoint, sequential_checkpoint, opt_get
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from models.switched_conv.switched_conv import SwitchedConv
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class ResidualDenseBlock(nn.Module):
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@ -3,7 +3,6 @@ import torch.nn as nn
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import torch.nn.functional as F
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from torch import einsum
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from models.switched_conv.switched_conv_hard_routing import SwitchNorm
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from utils.weight_scheduler import LinearDecayWeightScheduler
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@ -48,7 +47,6 @@ class GumbelQuantizer(nn.Module):
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return sampled.permute(0,2,1), 0, codes
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if __name__ == '__main__':
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from models.diffusion.diffusion_dvae import DiscreteDecoder
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j = torch.randn(8,40,1024)
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m = GumbelQuantizer(1024, 1024, 4096)
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m2 = DiscreteDecoder(1024, (512, 256), 2)
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@ -318,7 +318,7 @@ class Trainer:
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if __name__ == '__main__':
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parser = argparse.ArgumentParser()
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parser.add_argument('-opt', type=str, help='Path to option YAML file.', default='../options/train_diffusion_tts9_mel.yml')
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parser.add_argument('-opt', type=str, help='Path to option YAML file.', default='../options/train_diffusion_tts9_mel_flat.yml')
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parser.add_argument('--launcher', choices=['none', 'pytorch'], default='none', help='job launcher')
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args = parser.parse_args()
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opt = option.parse(args.opt, is_train=True)
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@ -52,12 +52,6 @@ def create_loss(opt_loss, env):
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return RecurrentLoss(opt_loss, env)
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elif type == 'for_element':
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return ForElementLoss(opt_loss, env)
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elif type == 'mixture_of_experts':
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from models.switched_conv.mixture_of_experts import MixtureOfExpertsLoss
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return MixtureOfExpertsLoss(opt_loss, env)
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elif type == 'switch_transformer_balance':
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from models.switched_conv.mixture_of_experts import SwitchTransformersLoadBalancingLoss
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return SwitchTransformersLoadBalancingLoss(opt_loss, env)
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elif type == 'nv_tacotron2_loss':
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from models.audio.tts.tacotron2 import Tacotron2Loss
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return Tacotron2Loss(opt_loss, env)
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