Nodes Browser
ComfyDeploy: How ComfyUI fabric works in ComfyUI?
What is ComfyUI fabric?
ComfyUI nodes based on the paper [a/FABRIC: Personalizing Diffusion Models with Iterative Feedback](https://arxiv.org/abs/2307.10159) (Feedback via Attention-Based Reference Image Conditioning)
How to install it in ComfyDeploy?
Head over to the machine page
- Click on the "Create a new machine" button
- Select the
Edit
build steps - Add a new step -> Custom Node
- Search for
ComfyUI fabric
and select it - Close the build step dialig and then click on the "Save" button to rebuild the machine
ComfyUI_fabric
ComfyUI nodes based on the paper "FABRIC: Personalizing Diffusion Models with Iterative Feedback" (Feedback via Attention-Based Reference Image Conditioning)
Paper: https://arxiv.org/abs/2307.10159
Main Repo: https://github.com/sd-fabric/fabric
SD Web UI Extension: https://github.com/dvruette/sd-webui-fabric
Installation
This has been tested for ComfyUI for the following commit: f21bb41787ce590ea6eff16163ee83404d9ff0d5
Navigate to ComfyUI/custom_nodes/
and run the following command:
git clone https://github.com/ssitu/ComfyUI_fabric
Usage
Nodes can be found in the node menu under FABRIC/
:
| Node | Description | |-------------------------------|------------------------------------------------------------------------------------------------------------------------| | FABRIC Patch Model | Patch a model to use FABRIC so you can use it in any sampler node. | | FABRIC Patch Model (Advanced) | Same as the basic model patcher but with the null_pos and null_neg inputs instead of a clip input. | | KSampler FABRIC | Has the same inputs as a KSampler but with full FABRIC inputs. | | KSampler FABRIC (Advanced) | Has the same inputs as an Advanced KSampler but with full FABRIC inputs. | | KSampler FABRIC (Simple) | Same inputs of a KSampler with the simplified (intended) FABRIC inputs. | | Batch Latents | Helper node for adding two latents together in a batch. Useful for using multiple positive/negative latents in FABRIC. |
Parameters' Descriptions
| Parameter | Description | |------------------|---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------| | pos_latents | Optional input for latents that you want the resulting latent to borrow characteristics from (e.g. "liked" images). | | neg_latents | Optional input for latents that you want the resulting latent to avoid characteristics of (e.g. "disliked" images). | | pos_weight | The weight of the positive latents. | | neg_weight | The weight of the negative latents. | | null_pos | The conditioning for computing the hidden states of the positive latents. Intended to just be an empty clip text embedding (output from an empty clip text encode), but it might be interesting to experiment with. | | null_neg | Same as null_pos but for negative latents. | | feedback_start | The step to start applying feedback. | | feedback_end | The step to stop applying feedback. | | feedback_percent | The percentage of steps to apply feedback (e.g. if set to 0.8, the first 80% of the steps will have feedback) |
Tips
- Input latent, pos_latents, and neg_latents should all be the same size. If they are not, they will be resized to the size of the input latent using bilinear interpolation, which is not a good way to resize latents so resize them in pixel space or use a model to resize the latents.
- Pay attention to the pos/neg weights. The default value of 1.0 is probably too high in most cases.
- The researchers recommend to only apply feedback to the first half of the denoising steps.
- If you are having out of memory errors, try switching cross attention methods or use a smaller batch of positive/negative latents.
- If you are having OOM errors with pytorch cross attention, you can try the nightly version of pytorch which has implemented better memory efficiency.
- The feedback process can be messy, the custom nodes here can make it simpler.
Examples
Round by round feedback:
FABRIC patch model: