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@ -71,6 +71,7 @@ class TransformerDiffusion(nn.Module):
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rotary_emb_dim=32,
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input_vec_dim=512,
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out_channels=512, # mean and variance
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num_heads=16,
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dropout=0,
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use_fp16=False,
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ar_prior=False,
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@ -94,7 +95,6 @@ class TransformerDiffusion(nn.Module):
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nn.SiLU(),
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linear(prenet_channels, model_channels),
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)
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prenet_heads = prenet_channels//64
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self.ar_prior = ar_prior
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if ar_prior:
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@ -102,7 +102,7 @@ class TransformerDiffusion(nn.Module):
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self.ar_prior_intg = Encoder(
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dim=prenet_channels,
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depth=prenet_layers,
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heads=prenet_heads,
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heads=num_heads,
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ff_dropout=dropout,
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attn_dropout=dropout,
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use_rmsnorm=True,
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@ -116,7 +116,7 @@ class TransformerDiffusion(nn.Module):
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self.code_converter = Encoder(
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dim=prenet_channels,
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depth=prenet_layers,
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heads=prenet_heads,
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heads=num_heads,
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ff_dropout=dropout,
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attn_dropout=dropout,
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use_rmsnorm=True,
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@ -129,7 +129,7 @@ class TransformerDiffusion(nn.Module):
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self.unconditioned_embedding = nn.Parameter(torch.randn(1,1,prenet_channels))
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self.rotary_embeddings = RotaryEmbedding(rotary_emb_dim)
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self.intg = nn.Linear(prenet_channels*2, model_channels)
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self.layers = TimestepRotaryEmbedSequential(*[DietAttentionBlock(model_channels, block_channels, block_channels // 64, dropout) for _ in range(num_layers)])
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self.layers = TimestepRotaryEmbedSequential(*[DietAttentionBlock(model_channels, block_channels, num_heads, dropout) for _ in range(num_layers)])
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self.out = nn.Sequential(
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normalization(model_channels),
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@ -196,19 +196,17 @@ class TransformerDiffusion(nn.Module):
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class TransformerDiffusionWithQuantizer(nn.Module):
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def __init__(self, freeze_quantizer_until=20000, quantizer_dims=[1024], no_reconstruction=True, **kwargs):
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def __init__(self, quantizer_dims=[1024], freeze_quantizer_until=20000, **kwargs):
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super().__init__()
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self.internal_step = 0
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self.freeze_quantizer_until = freeze_quantizer_until
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self.diff = TransformerDiffusion(**kwargs)
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self.quantizer = MusicQuantizer2(inp_channels=kwargs['in_channels'], inner_dim=quantizer_dims,
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codevector_dim=quantizer_dims[0], checkpoint=False,
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codebook_size=256, codebook_groups=2,
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max_gumbel_temperature=4, min_gumbel_temperature=.5)
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codevector_dim=quantizer_dims[0], codebook_size=256,
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codebook_groups=2, max_gumbel_temperature=4, min_gumbel_temperature=.5)
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self.quantizer.quantizer.temperature = self.quantizer.min_gumbel_temperature
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if no_reconstruction:
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del self.quantizer.up
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del self.quantizer.up
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def update_for_step(self, step, *args):
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self.internal_step = step
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@ -219,30 +217,27 @@ class TransformerDiffusionWithQuantizer(nn.Module):
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)
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def forward(self, x, timesteps, truth_mel, conditioning_input=None, disable_diversity=False, conditioning_free=False):
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mse, diversity_loss, proj = self.quantizer(truth_mel, return_decoder_latent=True)
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proj = proj.permute(0,2,1)
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quant_grad_enabled = self.internal_step > self.freeze_quantizer_until
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with torch.set_grad_enabled(quant_grad_enabled):
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proj, diversity_loss = self.quantizer(truth_mel, return_decoder_latent=True)
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proj = proj.permute(0,2,1)
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# Make sure this does not cause issues in DDP by explicitly using the parameters for nothing.
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if not quant_grad_enabled:
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proj = proj.detach()
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# Make sure this does not cause issues in DDP by explicitly using the parameters for nothing.
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unused = 0
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for p in self.quantizer.parameters():
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unused = unused + p.mean() * 0
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proj = proj + unused
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diversity_loss = diversity_loss * 0
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diff = self.diff(x, timesteps, codes=proj, conditioning_input=conditioning_input,
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conditioning_free=conditioning_free)
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diff = self.diff(x, timesteps, codes=proj, conditioning_input=conditioning_input, conditioning_free=conditioning_free)
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if disable_diversity:
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return diff
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if mse is None:
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return diff, diversity_loss
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return diff, diversity_loss, mse
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return diff, diversity_loss
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def get_debug_values(self, step, __):
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if self.quantizer.total_codes > 0:
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return {'histogram_quant_codes': self.quantizer.codes[:self.quantizer.total_codes],
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return {'histogram_codes': self.quantizer.codes[:self.quantizer.total_codes],
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'gumbel_temperature': self.quantizer.quantizer.temperature}
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else:
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return {}
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@ -320,26 +315,24 @@ def register_transformer_diffusion8_with_ar_prior(opt_net, opt):
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def test_quant_model():
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clip = torch.randn(2, 100, 401)
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clip = torch.randn(2, 256, 400)
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cond = torch.randn(2, 256, 400)
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ts = torch.LongTensor([600, 600])
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model = TransformerDiffusionWithQuantizer(in_channels=100, out_channels=200, quantizer_dims=[1024,768,512,384],
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model_channels=2048, block_channels=1024, prenet_channels=1024,
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input_vec_dim=1024, num_layers=16, prenet_layers=6,
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no_reconstruction=False)
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#model.get_grad_norm_parameter_groups()
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model = TransformerDiffusionWithQuantizer(in_channels=256, model_channels=2048, block_channels=1024,
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prenet_channels=1024, num_heads=8,
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input_vec_dim=1024, num_layers=16, prenet_layers=6)
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model.get_grad_norm_parameter_groups()
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#quant_weights = torch.load('D:\\dlas\\experiments\\train_music_quant_r4\\models\\5000_generator.pth')
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#diff_weights = torch.load('X:\\dlas\\experiments\\train_music_diffusion_tfd5\\models\\48000_generator_ema.pth')
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#model.quantizer.load_state_dict(quant_weights, strict=False)
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#model.diff.load_state_dict(diff_weights)
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quant_weights = torch.load('D:\\dlas\\experiments\\train_music_quant_r4\\models\\5000_generator.pth')
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model.quantizer.load_state_dict(quant_weights, strict=False)
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#torch.save(model.state_dict(), 'sample.pth')
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torch.save(model.state_dict(), 'sample.pth')
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print_network(model)
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o = model(clip, ts, clip)
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o = model(clip, ts, clip, cond)
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def test_ar_model():
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clip = torch.randn(2, 256, 401)
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clip = torch.randn(2, 256, 400)
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cond = torch.randn(2, 256, 400)
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ts = torch.LongTensor([600, 600])
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model = TransformerDiffusionWithARPrior(model_channels=2048, block_channels=1024, prenet_channels=1024,
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