glean mods

This commit is contained in:
James Betker 2020-12-19 08:26:07 -07:00
parent f35c034fa5
commit 9377d34ac3
3 changed files with 23 additions and 30 deletions

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@ -32,7 +32,7 @@ class GleanEncoderBlock(nn.Module):
# and latent vectors (`C` shape=[b,l,f] l=levels aka C_sub) for use with the latent bank.
# Note that latent levels and convolutional feature levels do not necessarily match, per the paper.
class GleanEncoder(nn.Module):
def __init__(self, nf, nb, reductions=4, latent_bank_blocks=13, latent_bank_latent_dim=512, input_dim=32):
def __init__(self, nf, nb, reductions=4, latent_bank_blocks=7, latent_bank_latent_dim=512, input_dim=32):
super().__init__()
self.initial_conv = ConvGnLelu(3, nf, kernel_size=7, activation=False, norm=False, bias=True)
self.rrdb_blocks = nn.Sequential(*[RRDB(nf) for _ in range(nb)])
@ -41,11 +41,10 @@ class GleanEncoder(nn.Module):
reducer_output_dim = (input_dim // (2 ** reductions)) ** 2
reducer_output_nf = nf * 2 ** reductions
self.latent_conv = ConvGnLelu(reducer_output_nf, reducer_output_nf, kernel_size=1, activation=True, norm=False, bias=True)
# This is a questionable part of this architecture. Apply multiple Denses to separate outputs (as I've done here)?
# Apply a single dense, then split the outputs? Who knows..
self.latent_linears = nn.ModuleList([EqualLinear(reducer_output_dim * reducer_output_nf, latent_bank_latent_dim,
self.latent_linear = EqualLinear(reducer_output_dim * reducer_output_nf,
latent_bank_latent_dim * latent_bank_blocks,
activation="fused_lrelu")
for _ in range(latent_bank_blocks)])
self.latent_bank_blocks = latent_bank_blocks
def forward(self, x):
fea = self.initial_conv(x)
@ -57,8 +56,7 @@ class GleanEncoder(nn.Module):
convolutional_features.append(f)
latents = self.latent_conv(fea)
latents = [dense(latents.flatten(1, -1)) for dense in self.latent_linears]
latents = torch.stack(latents, dim=1)
latents = self.latent_linear(latents.flatten(1, -1)).view(fea.shape[0], self.latent_bank_blocks, -1)
return rrdb_fea, convolutional_features, latents
@ -68,26 +66,23 @@ class GleanDecoder(nn.Module):
# To determine latent_bank_filters, use the `self.channels` map for the desired input dimensions from stylegan2_rosinality.py
def __init__(self, nf, latent_bank_filters=[512, 256, 128]):
super().__init__()
self.initial_conv = ConvGnLelu(nf, nf, kernel_size=3, activation=False, norm=False, bias=True)
self.initial_conv = ConvGnLelu(nf, nf, kernel_size=3, activation=True, norm=False, bias=True, weight_init_factor=.1)
# The paper calls for pixel shuffling each output of the decoder. We need to make sure that is possible. Doing it by using the latent bank filters as the output filters for each decoder stage
assert latent_bank_filters[-1] % 4 == 0
decoder_block_shuffled_dims = [nf // 4]
decoder_block_shuffled_dims.extend([l // 4 for l in latent_bank_filters])
decoder_block_shuffled_dims = [nf] + latent_bank_filters
self.decoder_blocks = nn.ModuleList([ConvGnLelu(decoder_block_shuffled_dims[i] + latent_bank_filters[i],
latent_bank_filters[i],
kernel_size=3, bias=True, norm=False, activation=False)
kernel_size=3, bias=True, norm=False, activation=True,
weight_init_factor=.1)
for i in range(len(latent_bank_filters))])
self.shuffler = nn.PixelShuffle(2) # TODO: I'm a bit skeptical about this. It doesn't align with RRDB or StyleGAN. It also always produces artifacts in my experience. Try using interpolation instead.
final_dim = latent_bank_filters[-1]
self.final_decode = nn.Sequential(ConvGnLelu(final_dim, final_dim, kernel_size=3, activation=True, bias=True, norm=False),
ConvGnLelu(final_dim, 3, kernel_size=3, activation=False, bias=True, norm=False))
self.final_decode = ConvGnLelu(final_dim, 3, kernel_size=3, activation=False, bias=True, norm=False, weight_init_factor=.1)
def forward(self, rrdb_fea, latent_bank_fea):
fea = self.initial_conv(rrdb_fea)
for i, block in enumerate(self.decoder_blocks):
fea = self.shuffler(fea)
# The paper calls for PixelShuffle here, but I don't have good experience with that. It also doesn't align with the way the underlying StyleGAN works.
fea = nn.functional.interpolate(fea, scale_factor=2, mode="nearest")
fea = torch.cat([fea, latent_bank_fea[i]], dim=1)
fea = checkpoint(block, fea)
return self.final_decode(fea)
@ -98,9 +93,8 @@ class GleanGenerator(nn.Module):
encoder_rrdb_nb=6, encoder_reductions=4, latent_bank_latent_dim=512, input_dim=32):
super().__init__()
self.input_dim = input_dim
latent_blocks = int(math.log(gen_output_dim, 2)) - 1 # From 4x4->gen_output_dim x gen_output_dim
latent_blocks = latent_blocks * 2 + 1 # Two styled convolutions per block, + an initial styled conv.
self.encoder = GleanEncoder(nf, encoder_rrdb_nb, reductions=encoder_reductions, latent_bank_blocks=latent_blocks * 2 + 1,
latent_blocks = int(math.log(gen_output_dim, 2)) # From 4x4->gen_output_dim x gen_output_dim + initial styled conv
self.encoder = GleanEncoder(nf, encoder_rrdb_nb, reductions=encoder_reductions, latent_bank_blocks=latent_blocks,
latent_bank_latent_dim=latent_bank_latent_dim, input_dim=input_dim)
decoder_blocks = int(math.log(gen_output_dim/input_dim, 2))
latent_bank_filters_out = [512, 256, 128] # TODO: Use decoder_blocks to synthesize the correct value for latent_bank_filters here. The fixed defaults will work fine for testing, though.

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@ -45,22 +45,21 @@ class Stylegan2LatentBank(nn.Module):
out = self.bank.input(latent_vectors[:, 0]) # The input here is only used to fetch the batch size.
out = self.bank.conv1(out, latent_vectors[:, 0], noise=None)
i, k = 1, 0
k = 0
decoder_outputs = []
for conv1, conv2 in zip(self.bank.convs[::2], self.bank.convs[1::2]):
if k < len(self.fusion_blocks):
out = torch.cat([convolutional_features[-k-1], out], dim=1)
out = self.fusion_blocks[k](out)
out = conv1(out, latent_vectors[:, i], noise=None)
out = conv2(out, latent_vectors[:, i + 1], noise=None)
out = conv1(out, latent_vectors[:, k], noise=None)
out = conv2(out, latent_vectors[:, k], noise=None)
if k >= self.decoder_start:
decoder_outputs.append(out)
if k >= self.total_levels:
break
i += 2
k += 1
return decoder_outputs

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@ -90,23 +90,23 @@ steps:
losses:
pix:
type: pix
weight: .05
criterion: l1
weight: 1
criterion: l2
real: hq
fake: gen
feature:
type: feature
after: 5000
which_model_F: vgg
criterion: l1
weight: 1
criterion: l2
weight: .01
real: hq
fake: gen
gan_gen_img:
after: 10000
type: generator_gan
gan_type: gan
weight: .02
weight: .01
noise: .004
discriminator: feature_discriminator
fake: gen