The most powerful and modular stable diffusion GUI, api and backend with a graph/nodes interface.
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def attention_multiply(attn, model, q, k, v, out):
m = model.clone()
sd = model.model_state_dict()
for key in sd:
if key.endswith("{}.to_q.bias".format(attn)) or key.endswith("{}.to_q.weight".format(attn)):
m.add_patches({key: (None,)}, 0.0, q)
if key.endswith("{}.to_k.bias".format(attn)) or key.endswith("{}.to_k.weight".format(attn)):
m.add_patches({key: (None,)}, 0.0, k)
if key.endswith("{}.to_v.bias".format(attn)) or key.endswith("{}.to_v.weight".format(attn)):
m.add_patches({key: (None,)}, 0.0, v)
if key.endswith("{}.to_out.0.bias".format(attn)) or key.endswith("{}.to_out.0.weight".format(attn)):
m.add_patches({key: (None,)}, 0.0, out)
return m
class UNetSelfAttentionMultiply:
@classmethod
def INPUT_TYPES(s):
return {"required": { "model": ("MODEL",),
"q": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 10.0, "step": 0.01}),
"k": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 10.0, "step": 0.01}),
"v": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 10.0, "step": 0.01}),
"out": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 10.0, "step": 0.01}),
}}
RETURN_TYPES = ("MODEL",)
FUNCTION = "patch"
CATEGORY = "_for_testing/attention_experiments"
def patch(self, model, q, k, v, out):
m = attention_multiply("attn1", model, q, k, v, out)
return (m, )
class UNetCrossAttentionMultiply:
@classmethod
def INPUT_TYPES(s):
return {"required": { "model": ("MODEL",),
"q": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 10.0, "step": 0.01}),
"k": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 10.0, "step": 0.01}),
"v": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 10.0, "step": 0.01}),
"out": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 10.0, "step": 0.01}),
}}
RETURN_TYPES = ("MODEL",)
FUNCTION = "patch"
CATEGORY = "_for_testing/attention_experiments"
def patch(self, model, q, k, v, out):
m = attention_multiply("attn2", model, q, k, v, out)
return (m, )
class CLIPAttentionMultiply:
@classmethod
def INPUT_TYPES(s):
return {"required": { "clip": ("CLIP",),
"q": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 10.0, "step": 0.01}),
"k": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 10.0, "step": 0.01}),
"v": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 10.0, "step": 0.01}),
"out": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 10.0, "step": 0.01}),
}}
RETURN_TYPES = ("CLIP",)
FUNCTION = "patch"
CATEGORY = "_for_testing/attention_experiments"
def patch(self, clip, q, k, v, out):
m = clip.clone()
sd = m.patcher.model_state_dict()
for key in sd:
if key.endswith("self_attn.q_proj.weight") or key.endswith("self_attn.q_proj.bias"):
m.add_patches({key: (None,)}, 0.0, q)
if key.endswith("self_attn.k_proj.weight") or key.endswith("self_attn.k_proj.bias"):
m.add_patches({key: (None,)}, 0.0, k)
if key.endswith("self_attn.v_proj.weight") or key.endswith("self_attn.v_proj.bias"):
m.add_patches({key: (None,)}, 0.0, v)
if key.endswith("self_attn.out_proj.weight") or key.endswith("self_attn.out_proj.bias"):
m.add_patches({key: (None,)}, 0.0, out)
return (m, )
class UNetTemporalAttentionMultiply:
@classmethod
def INPUT_TYPES(s):
return {"required": { "model": ("MODEL",),
"self_structural": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 10.0, "step": 0.01}),
"self_temporal": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 10.0, "step": 0.01}),
"cross_structural": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 10.0, "step": 0.01}),
"cross_temporal": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 10.0, "step": 0.01}),
}}
RETURN_TYPES = ("MODEL",)
FUNCTION = "patch"
CATEGORY = "_for_testing/attention_experiments"
def patch(self, model, self_structural, self_temporal, cross_structural, cross_temporal):
m = model.clone()
sd = model.model_state_dict()
for k in sd:
if (k.endswith("attn1.to_out.0.bias") or k.endswith("attn1.to_out.0.weight")):
if '.time_stack.' in k:
m.add_patches({k: (None,)}, 0.0, self_temporal)
else:
m.add_patches({k: (None,)}, 0.0, self_structural)
elif (k.endswith("attn2.to_out.0.bias") or k.endswith("attn2.to_out.0.weight")):
if '.time_stack.' in k:
m.add_patches({k: (None,)}, 0.0, cross_temporal)
else:
m.add_patches({k: (None,)}, 0.0, cross_structural)
return (m, )
NODE_CLASS_MAPPINGS = {
"UNetSelfAttentionMultiply": UNetSelfAttentionMultiply,
"UNetCrossAttentionMultiply": UNetCrossAttentionMultiply,
"CLIPAttentionMultiply": CLIPAttentionMultiply,
"UNetTemporalAttentionMultiply": UNetTemporalAttentionMultiply,
}