# What makes EveryDream different from Dreambooth?
EveryDream is a *general case fine tuner*. It does not explicitly implement the techniques from the Dreambooth paper.
That means there is no "class" or "token" or "regularization images". It simply trains image and caption pairs, much more like the original training of Stable Diffusion, just at a much smaller "at home" scale.
The Dreambooth technique uses the concept of adding *generated images from the model itself* to try to keep training from "veering too off course" and "damaging" the model while fine tuning a specific subject with just a handful of images. It served the purpose of "preserving" the integrity of the model. Early on in Dreambooth's lifecycle, people would train 5-20 images of their face, and use a few hundred or maybe a thousand "regularization" images along with the 5-20 training images of their new subject. Since then, many people want to scale to larger training, but more on that later...
It's very important to note these "regularization" images have been generated out of SD itself, using a simple prompt such as "person" or "woman". The prompt was meant as some sort of general "class" name that the subject you were trying to train fell under. For training your own face, "person" or "man" or "woman" has been very popular as "class". Likewise, training other things like your own dog, you might generate "dog" class/prompt regularization images for Dreambooth.
The *purpose* of the "regularization" images is to "preserve" the model so that not everything generated out of the model looks like your training subject, "bob smith" or whatever it may be. So that, hopefully, Tom Cruise does not suddenly look like your Bob Smith training images.
Often these regularization images are quite ugly, and they get trained back into the model by Dreambooth, reinforcing bad habits. This works short term for training one new face, but does not scale and eventually has the same problems of "damaging" the model and making it uglier overall.
I instead propose you replace images generated out of SD itself with original "ground truth" data.
### Enter ground truth
"Ground truth" for the sake of this document means real images not generated by AI. It's very easy to get publicly available ML data sets to serve this purpose and replace genarated "regularization" images with real photos or otherwise.
Sources include [FFHQ](https://github.com/NVlabs/ffhq-dataset), [Coco](https://cocodataset.org/#home), and [Laion](https://huggingface.co/datasets/laion/laion2B-en-aesthetic/tree/main). There is a simple scraper to search Laion parquet files in the tools repo, and the Laion dataset was used by [Compvis](https://github.com/CompVis/stable-diffusion#weights) and [Stability.ai](https://github.com/Stability-AI/stablediffusion#news) themselves to train the base model.
Using ground truth allows fine tuning to scale to potentially as many images at you want, including training dozens of characters at once using thousands of images, which many EveryDream community members have done.
Using ground truth images for the general purpose of "presevation" will, instead of reinforcing bad habits by regularization, possibly help the model look *better* while training your actual training subjects, depending on how carefully you select your ground truth images.
"Preservation" images and "training" images have no special distinction in EveryDream. All images are treated the same and the trainer does not know the difference. It is all in how you use them.
Any preservation images still need a caption of some sort. Just "person" may be sufficient, afterall we're just trying to simulate Dreambooth for this example. This can be as easy as selecting all the images, F2 rename, type `person_` (with the underscore) and press enter. Windows will append (x) to every file to make sure the filenames are unique, and EveryDream interprets the underscore as the end of the caption when present in the filename, thus all the images will be read as having a caption of simply `person`, similar to how many people train Dreambooth.
You could also generate "person" regularization images out of any Stable Diffusion inference application or download one of the premade regularization sets, *but I find this is less than ideal*. For small training, regularization or preservation is simply not needed. For longer term training you're much better off mixing in real "ground truth" images into your data instead of generated data. "Ground truth" meaning images not generated from an AI. Training back on generated data will reinforce the errors in the model, like extra limbs, weird fingers, watermarks, etc. Using real ground truth data can actually help improve the model.
Therefore, I suggest using other web scrape data, or ML data sets like FFHQ, Imagenet, Laion, or Coco in place of generated images out of Stable Diffusion for model preservation like typical Dreambooth trainers do.
It's important to understand that the Dreambooth trainers out there are actually training on those "regularization" images as if they are training images. So, any ugly images in regularization sets are reinforced into the model. This is why I moved away from Dreambooth back in late October 2022 with [EveryDream 1.0](https://github.com/victorchall/EveryDream-trainer), which was rewritten in late 2022 and early 2023 into this repo, EveryDream 2.
# Simulating Dreambooth
You can simulate what most Dreambooth trainers do *somewhat* by following some guidelines in the [Data Balancing](./BALANCING.md) doc to mix in other (non-training) images for model preservation. Ex. if you are training 50 images of your face, you could grab 1000 images from the FFHQ face close up set and organize your data like this.
/my_data_root/training/ (your 50 training images)
/my_data_root/preservation/ (1000 images from FFHQ)
... And also place a file called multiply.txt in the preservation folder with a value of, for example, 0.025 typed in it. Train from "data_root": "/my_data_root" and it will mix in 25 random images (1000 x 0.025) from the preservation folder every epoch.
If you use Stable Diffusion generated images, this would be similar to Dreambooth, though the difference is still that the "regularizaiton" images are not specificly paired into batches with training images. They're mixed in randomly.