Merge pull request #2 from v0xie/network-oft-change-impl
Use same updown implementation for LyCORIS OFT as kohya-ss OFT
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7edd50f304
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@ -24,12 +24,14 @@ class NetworkModuleOFT(network.NetworkModule):
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# kohya-ss
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# kohya-ss
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if "oft_blocks" in weights.w.keys():
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if "oft_blocks" in weights.w.keys():
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self.is_kohya = True
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self.is_kohya = True
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self.oft_blocks = weights.w["oft_blocks"]
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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"]
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self.alpha = weights.w["alpha"]
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self.dim = self.oft_blocks.shape[0]
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self.dim = self.oft_blocks.shape[0] # lora dim
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#self.oft_blocks = rearrange(self.oft_blocks, 'k m ... -> (k m) ...')
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elif "oft_diag" in weights.w.keys():
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elif "oft_diag" in weights.w.keys():
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self.is_kohya = False
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self.is_kohya = False
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self.oft_blocks = weights.w["oft_diag"]
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self.oft_blocks = weights.w["oft_diag"] # (num_blocks, block_size, block_size)
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# alpha is rank if alpha is 0 or None
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# alpha is rank if alpha is 0 or None
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if self.alpha is None:
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if self.alpha is None:
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pass
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pass
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@ -51,12 +53,11 @@ class NetworkModuleOFT(network.NetworkModule):
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raise ValueError("sd_module must be Linear or Conv")
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raise ValueError("sd_module must be Linear or Conv")
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if self.is_kohya:
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if self.is_kohya:
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self.num_blocks = self.dim
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self.block_size = self.out_dim // self.num_blocks
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self.constraint = self.alpha * self.out_dim
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self.constraint = self.alpha * self.out_dim
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self.num_blocks, self.block_size = factorization(self.out_dim, self.dim)
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else:
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else:
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self.block_size, self.num_blocks = factorization(self.out_dim, self.dim)
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self.constraint = None
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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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def merge_weight(self, R_weight, org_weight):
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def merge_weight(self, R_weight, org_weight):
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R_weight = R_weight.to(org_weight.device, dtype=org_weight.dtype)
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R_weight = R_weight.to(org_weight.device, dtype=org_weight.dtype)
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@ -77,7 +78,8 @@ class NetworkModuleOFT(network.NetworkModule):
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else:
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else:
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new_norm_Q = norm_Q
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new_norm_Q = norm_Q
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block_Q = block_Q * ((new_norm_Q + 1e-8) / (norm_Q + 1e-8))
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block_Q = block_Q * ((new_norm_Q + 1e-8) / (norm_Q + 1e-8))
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m_I = torch.eye(self.block_size, device=oft_blocks.device).unsqueeze(0).repeat(self.num_blocks, 1, 1)
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m_I = torch.eye(self.num_blocks, device=oft_blocks.device).unsqueeze(0).repeat(self.block_size, 1, 1)
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#m_I = torch.eye(self.block_size, device=oft_blocks.device).unsqueeze(0).repeat(self.num_blocks, 1, 1)
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block_R = torch.matmul(m_I + block_Q, (m_I - block_Q).inverse())
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block_R = torch.matmul(m_I + block_Q, (m_I - block_Q).inverse())
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block_R_weighted = multiplier * block_R + (1 - multiplier) * m_I
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block_R_weighted = multiplier * block_R + (1 - multiplier) * m_I
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@ -97,25 +99,33 @@ class NetworkModuleOFT(network.NetworkModule):
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is_other_linear = type(self.sd_module) in [torch.nn.MultiheadAttention]
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is_other_linear = type(self.sd_module) in [torch.nn.MultiheadAttention]
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if not is_other_linear:
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if not is_other_linear:
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if is_other_linear and orig_weight.shape[0] != orig_weight.shape[1]:
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#if is_other_linear and orig_weight.shape[0] != orig_weight.shape[1]:
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orig_weight=orig_weight.permute(1, 0)
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# orig_weight=orig_weight.permute(1, 0)
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oft_blocks = self.oft_blocks.to(orig_weight.device, dtype=orig_weight.dtype)
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# without this line the results are significantly worse / less accurate
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oft_blocks = oft_blocks - oft_blocks.transpose(1, 2)
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R = oft_blocks.to(orig_weight.device, dtype=orig_weight.dtype)
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R = R * multiplier + torch.eye(self.block_size, device=orig_weight.device)
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R = self.oft_blocks.to(orig_weight.device, dtype=orig_weight.dtype)
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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 = 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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merged_weight = torch.einsum(
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'k n m, k n ... -> k m ...',
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'k n m, k n ... -> k m ...',
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R * multiplier + torch.eye(self.block_size, device=orig_weight.device),
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R,
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merged_weight
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merged_weight
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)
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)
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merged_weight = rearrange(merged_weight, 'k m ... -> (k m) ...')
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merged_weight = rearrange(merged_weight, 'k m ... -> (k m) ...')
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if is_other_linear and orig_weight.shape[0] != orig_weight.shape[1]:
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#if is_other_linear and orig_weight.shape[0] != orig_weight.shape[1]:
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orig_weight=orig_weight.permute(1, 0)
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# orig_weight=orig_weight.permute(1, 0)
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updown = merged_weight.to(orig_weight.device, dtype=orig_weight.dtype) - orig_weight
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updown = merged_weight.to(orig_weight.device, dtype=orig_weight.dtype) - orig_weight
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output_shape = orig_weight.shape
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output_shape = orig_weight.shape
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else:
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else:
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# FIXME: skip MultiheadAttention for now
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# FIXME: skip MultiheadAttention for now
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#up = self.lin_module.weight.to(orig_weight.device, dtype=orig_weight.dtype)
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updown = torch.zeros([orig_weight.shape[1], orig_weight.shape[1]], device=orig_weight.device, dtype=orig_weight.dtype)
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updown = torch.zeros([orig_weight.shape[1], orig_weight.shape[1]], device=orig_weight.device, dtype=orig_weight.dtype)
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output_shape = (orig_weight.shape[1], orig_weight.shape[1])
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output_shape = (orig_weight.shape[1], orig_weight.shape[1])
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@ -123,10 +133,10 @@ class NetworkModuleOFT(network.NetworkModule):
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def calc_updown(self, orig_weight):
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def calc_updown(self, orig_weight):
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multiplier = self.multiplier() * self.calc_scale()
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multiplier = self.multiplier() * self.calc_scale()
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if self.is_kohya:
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#if self.is_kohya:
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return self.calc_updown_kohya(orig_weight, multiplier)
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# return self.calc_updown_kohya(orig_weight, multiplier)
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else:
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#else:
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return self.calc_updown_kb(orig_weight, multiplier)
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return self.calc_updown_kb(orig_weight, multiplier)
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# override to remove the multiplier/scale factor; it's already multiplied in get_weight
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# override to remove the multiplier/scale factor; it's already multiplied in get_weight
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def finalize_updown(self, updown, orig_weight, output_shape, ex_bias=None):
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def finalize_updown(self, updown, orig_weight, output_shape, ex_bias=None):
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