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Merge pull request #14871 from v0xie/boft
Support inference with LyCORIS BOFT networks
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@ -22,6 +22,8 @@ class NetworkModuleOFT(network.NetworkModule):
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self.org_module: list[torch.Module] = [self.sd_module]
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self.scale = 1.0
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self.is_kohya = False
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self.is_boft = False
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# kohya-ss
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if "oft_blocks" in weights.w.keys():
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@ -29,13 +31,19 @@ class NetworkModuleOFT(network.NetworkModule):
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self.oft_blocks = weights.w["oft_blocks"] # (num_blocks, block_size, block_size)
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self.alpha = weights.w["alpha"] # alpha is constraint
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self.dim = self.oft_blocks.shape[0] # lora dim
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# LyCORIS
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# LyCORIS OFT
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elif "oft_diag" in weights.w.keys():
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self.is_kohya = False
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self.oft_blocks = weights.w["oft_diag"]
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# self.alpha is unused
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self.dim = self.oft_blocks.shape[1] # (num_blocks, block_size, block_size)
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# LyCORIS BOFT
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if weights.w["oft_diag"].dim() == 4:
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self.is_boft = True
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self.rescale = weights.w.get('rescale', None)
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if self.rescale is not None:
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self.rescale = self.rescale.reshape(-1, *[1]*(self.org_module[0].weight.dim() - 1))
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is_linear = type(self.sd_module) in [torch.nn.Linear, torch.nn.modules.linear.NonDynamicallyQuantizableLinear]
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is_conv = type(self.sd_module) in [torch.nn.Conv2d]
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is_other_linear = type(self.sd_module) in [torch.nn.MultiheadAttention] # unsupported
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@ -51,6 +59,13 @@ class NetworkModuleOFT(network.NetworkModule):
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self.constraint = self.alpha * self.out_dim
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self.num_blocks = self.dim
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self.block_size = self.out_dim // self.dim
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elif self.is_boft:
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self.constraint = None
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self.boft_m = weights.w["oft_diag"].shape[0]
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self.block_num = weights.w["oft_diag"].shape[1]
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self.block_size = weights.w["oft_diag"].shape[2]
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self.boft_b = self.block_size
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#self.block_size, self.block_num = butterfly_factor(self.out_dim, self.dim)
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else:
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self.constraint = None
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self.block_size, self.num_blocks = factorization(self.out_dim, self.dim)
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@ -68,14 +83,37 @@ class NetworkModuleOFT(network.NetworkModule):
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R = oft_blocks.to(orig_weight.device)
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# This errors out for MultiheadAttention, might need to be handled up-stream
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merged_weight = rearrange(orig_weight, '(k n) ... -> k n ...', k=self.num_blocks, n=self.block_size)
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merged_weight = torch.einsum(
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'k n m, k n ... -> k m ...',
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R,
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merged_weight
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)
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merged_weight = rearrange(merged_weight, 'k m ... -> (k m) ...')
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if not self.is_boft:
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# This errors out for MultiheadAttention, might need to be handled up-stream
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merged_weight = rearrange(orig_weight, '(k n) ... -> k n ...', k=self.num_blocks, n=self.block_size)
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merged_weight = torch.einsum(
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'k n m, k n ... -> k m ...',
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R,
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merged_weight
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)
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merged_weight = rearrange(merged_weight, 'k m ... -> (k m) ...')
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else:
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# TODO: determine correct value for scale
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scale = 1.0
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m = self.boft_m
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b = self.boft_b
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r_b = b // 2
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inp = orig_weight
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for i in range(m):
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bi = R[i] # b_num, b_size, b_size
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if i == 0:
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# Apply multiplier/scale and rescale into first weight
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bi = bi * scale + (1 - scale) * eye
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inp = rearrange(inp, "(c g k) ... -> (c k g) ...", g=2, k=2**i * r_b)
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inp = rearrange(inp, "(d b) ... -> d b ...", b=b)
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inp = torch.einsum("b i j, b j ... -> b i ...", bi, inp)
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inp = rearrange(inp, "d b ... -> (d b) ...")
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inp = rearrange(inp, "(c k g) ... -> (c g k) ...", g=2, k=2**i * r_b)
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merged_weight = inp
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# Rescale mechanism
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if self.rescale is not None:
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merged_weight = self.rescale.to(merged_weight) * merged_weight
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updown = merged_weight.to(orig_weight.device) - orig_weight.to(merged_weight.dtype)
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output_shape = orig_weight.shape
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