Re-work SwitchedResgen2

Got rid of the converged multiplexer bases but kept the configurable architecture. The new multiplexers look a lot like the old one. Took some queues from the transformer architecture: translate image to a higher filter-space and stay there for the duration of the models computation. Also perform convs after each switch to allow the model to anneal issues that arise.
2020-06-25 18:17:05 -06:00 · 2020-06-25 18:17:05 -06:00 · 407224eba1
commit 407224eba1
parent 42a10b34ce
1 changed files with 44 additions and 11 deletions
--- a/codes/models/archs/SwitchedResidualGenerator_arch.py
+++ b/codes/models/archs/SwitchedResidualGenerator_arch.py
@ -175,9 +175,32 @@ class ConfigurableSwitchComputer(nn.Module):
        self.switch.set_attention_temperature(temp)


-class ResidualBasisMultiplexerBase(nn.Module):
+class ConvBasisMultiplexer(nn.Module):
+    def __init__(self, input_channels, base_filters, growth, reductions, processing_depth, multiplexer_channels, use_bn=True):
+        super(ConvBasisMultiplexer, self).__init__()
+        self.filter_conv = ConvBnLelu(input_channels, base_filters)
+        self.reduction_blocks = nn.Sequential(OrderedDict([('block%i:' % (i,), HalvingProcessingBlock(base_filters * 2 ** i)) for i in range(reductions)]))
+        reduction_filters = base_filters * 2 ** reductions
+        self.processing_blocks, self.output_filter_count = create_sequential_growing_processing_block(reduction_filters, growth, processing_depth)
+
+        gap = self.output_filter_count - multiplexer_channels
+        self.cbl1 = ConvBnLelu(self.output_filter_count, self.output_filter_count - (gap // 4), bn=use_bn)
+        self.cbl2 = ConvBnLelu(self.output_filter_count - (gap // 4), self.output_filter_count - (gap // 2), bn=use_bn)
+        self.cbl3 = ConvBnLelu(self.output_filter_count - (gap // 2), multiplexer_channels)
+
+    def forward(self, x):
+        x = self.filter_conv(x)
+        x = self.reduction_blocks(x)
+        x = self.processing_blocks(x)
+        x = self.cbl1(x)
+        x = self.cbl2(x)
+        x = self.cbl3(x)
+        return x
+
+
+class ConvBasisMultiplexerBase(nn.Module):
    def __init__(self, input_channels, base_filters, growth, reductions, processing_depth):
-        super(ResidualBasisMultiplexerBase, self).__init__()
+        super(ConvBasisMultiplexerBase, self).__init__()
        self.filter_conv = ConvBnLelu(input_channels, base_filters)
        self.reduction_blocks = nn.Sequential(OrderedDict([('block%i:' % (i,), HalvingProcessingBlock(base_filters * 2 ** i)) for i in range(reductions)]))
        reduction_filters = base_filters * 2 ** reductions
@ -190,9 +213,9 @@ class ResidualBasisMultiplexerBase(nn.Module):
        return x


-class ResidualBasisMultiplexerLeaf(nn.Module):
+class ConvBasisMultiplexerLeaf(nn.Module):
    def __init__(self, base, filters, multiplexer_channels, use_bn=False):
-        super(ResidualBasisMultiplexerLeaf, self).__init__()
+        super(ConvBasisMultiplexerLeaf, self).__init__()
        assert(filters > multiplexer_channels)
        gap = filters - multiplexer_channels
        assert(gap % 4 == 0)
@ -277,19 +300,24 @@ class ConfigurableSwitchedResidualGenerator(nn.Module):

 class ConfigurableSwitchedResidualGenerator2(nn.Module):
    def __init__(self, switch_filters, switch_growths, switch_reductions, switch_processing_layers, trans_counts, trans_kernel_sizes,
-                 trans_layers, trans_filters_mid, initial_temp=20, final_temperature_step=50000, heightened_temp_min=1,
+                 trans_layers, transformation_filters, initial_temp=20, final_temperature_step=50000, heightened_temp_min=1,
                 heightened_final_step=50000, upsample_factor=1, enable_negative_transforms=False,
                 add_scalable_noise_to_transforms=False):
        super(ConfigurableSwitchedResidualGenerator2, self).__init__()
        switches = []
-        multiplexer_base = ResidualBasisMultiplexerBase(3, switch_filters[0], switch_growths[0], switch_reductions[0], switch_processing_layers[0])
-        for trans_count, kernel, layers, mid_filters in zip(trans_counts, trans_kernel_sizes, trans_layers, trans_filters_mid):
-            leaf_fn = functools.partial(ResidualBasisMultiplexerLeaf, multiplexer_base, multiplexer_base.output_filter_count)
-            switches.append(ConfigurableSwitchComputer(leaf_fn, functools.partial(ResidualBranch, 3, mid_filters, 3, kernel_size=kernel, depth=layers), trans_count, initial_temp, enable_negative_transforms=enable_negative_transforms, add_scalable_noise_to_transforms=add_scalable_noise_to_transforms))
+        post_switch_proc = []
+        self.initial_conv = ConvBnLelu(3, transformation_filters, bn=False)
+        self.final_conv = ConvBnLelu(transformation_filters, 3, bn=False)
+        for filters, growth, sw_reduce, sw_proc, trans_count, kernel, layers in zip(switch_filters, switch_growths, switch_reductions, switch_processing_layers, trans_counts, trans_kernel_sizes, trans_layers):
+            multiplx_fn = functools.partial(ConvBasisMultiplexer, transformation_filters, filters, growth, sw_reduce, sw_proc, trans_count)
+            switches.append(ConfigurableSwitchComputer(multiplx_fn, functools.partial(ResidualBranch, transformation_filters, transformation_filters, transformation_filters, kernel_size=kernel, depth=layers), trans_count, initial_temp, enable_negative_transforms=enable_negative_transforms, add_scalable_noise_to_transforms=add_scalable_noise_to_transforms))
+            post_switch_proc.append(ConvBnLelu(transformation_filters, transformation_filters, bn=False))
        initialize_weights(switches, 1)
        # Initialize the transforms with a lesser weight, since they are repeatedly added on to the resultant image.
        initialize_weights([s.transforms for s in switches], .2 / len(switches))
        self.switches = nn.ModuleList(switches)
+        initialize_weights([p for p in post_switch_proc], .01)
+        self.post_switch_convs = nn.ModuleList(post_switch_proc)
        self.transformation_counts = trans_counts
        self.init_temperature = initial_temp
        self.final_temperature_step = final_temperature_step
@ -304,11 +332,16 @@ class ConfigurableSwitchedResidualGenerator2(nn.Module):
        if self.upsample_factor > 1:
            x = F.interpolate(x, scale_factor=self.upsample_factor, mode="nearest")

+        x = self.initial_conv(x)
+
        self.attentions = []
-        for i, sw in enumerate(self.switches):
+        for i, (sw, conv) in enumerate(zip(self.switches, self.post_switch_convs)):
            sw_out, att = sw.forward(x, True)
-            x = x + sw_out
            self.attentions.append(att)
+            x = x + sw_out
+            x = x + conv(x)
+
+        x = self.final_conv(x)
        return x,

    def set_temperature(self, temp):