⚠️ Warning: The scripts in this repository have the potential to damage your training data. Always maintain backups before proceeding.
SimpleTuner is geared towards simplicity, with a focus on making the code easily understood. This codebase serves as a shared academic exercise, and contributions are welcome.
- Simplicity: Aiming to have good default settings for most use cases, so less tinkering is required.
- Versatility: Designed to handle a wide range of image quantities - from small datasets to extensive collections.
- Cutting-Edge Features: Only incorporates features that have proven efficacy, avoiding the addition of untested options.
Please fully explore this README before embarking on the tutorial, as it contains vital information that you might need to know first.
For a quick start without reading the full documentation, you can use the Quick Start guide.
For memory-constrained systems, see the DeepSpeed document which explains how to use 🤗Accelerate to configure Microsoft's DeepSpeed for optimiser state offload.
- Multi-GPU training
- Image and caption features (embeds) are cached to the hard drive in advance, so that training runs faster and with less memory consumption
- Aspect bucketing: support for a variety of image sizes and aspect ratios, enabling widescreen and portrait training.
- Refiner LoRA or full u-net training for SDXL
- Most models are trainable on a 24G GPU, or even down to 16G at lower base resolutions.
- LoRA/LyCORIS training for PixArt, SDXL, SD3, and SD 2.x that uses less than 16G VRAM
- DeepSpeed integration allowing for training SDXL's full u-net on 12G of VRAM, albeit very slowly.
- Quantised LoRA training, using low-precision base model or text encoder weights to reduce VRAM consumption while still allowing DreamBooth.
- Optional EMA (Exponential moving average) weight network to counteract model overfitting and improve training stability. Note: This does not apply to LoRA.
- Train directly from an S3-compatible storage provider, eliminating the requirement for expensive local storage. (Tested with Cloudflare R2 and Wasabi S3)
- For only SDXL and SD 1.x/2.x, full ControlNet model training (not ControlLoRA or ControlLite)
- Training Mixture of Experts for lightweight, high-quality diffusion models
- Webhook support for updating eg. Discord channels with your training progress, validations, and errors
- Integration with the Hugging Face Hub for seamless model upload and nice automatically-generated model cards.
Full training support for Flux.1 is included:
- Classifier-free guidance training
- Leave it disabled and preserve the dev model's distillation qualities
- Or, reintroduce CFG to the model and improve its creativity at the cost of inference speed and training time.
- (optional) T5 attention masked training for superior fine details and generalisation capabilities
- LoRA or full tuning via DeepSpeed ZeRO on a single GPU
- Quantise the base model using
--base_model_precision
toint8-quanto
orfp8-quanto
for major memory savings
See hardware requirements or the quickstart guide.
SimpleTuner has extensive training integration with PixArt Sigma - both the 600M & 900M models load without modification.
- Text encoder training is not supported, as T5 is enormous.
- LyCORIS and full tuning both work as expected
- ControlNet training is not yet supported
- Two-stage PixArt training support (see: MIXTURE_OF_EXPERTS)
See the PixArt Quickstart guide to start training.
- LoRA and full finetuning are supported as usual.
- ControlNet is not yet implemented.
- Certain features such as segmented timestep selection and Compel long prompt weighting are not yet supported.
- Parameters have been optimised to get the best results, validated through from-scratch training of SD3 models
See the Stable Diffusion 3 Quickstart to get going.
An SDXL-based model with ChatGLM (General Language Model) 6B as its text encoder, doubling the hidden dimension size and substantially increasing the level of local detail included in the prompt embeds.
Kolors support is almost as deep as SDXL, minus ControlNet training support.
RunwayML's SD 1.5 and StabilityAI's SD 2.x are both trainable under the legacy
designation.
Pretty much anything 3090 and up is a safe bet. YMMV.
LoRA and full-rank tuning are verified working on a 7900 XTX 24GB and MI300X.
Lacking xformers
, it will use more memory than Nvidia equivalent hardware.
LoRA and full-rank tuning are tested to work on an M3 Max with 128G memory, taking about 12G of "Wired" memory and 4G of system memory for SDXL.
- You likely need a 24G or greater machine for machine learning with M-series hardware due to the lack of memory-efficient attention.
- Subscribing to Pytorch issues for MPS is probably a good idea, as random bugs will make training stop working.
- A100-80G (Full tune with DeepSpeed)
- A100-40G (LoRA, LoKr)
- 3090 24G (LoRA, LoKr)
- 3080 16G (int4, LoRA, LoKr)
Flux prefers being trained with multiple large GPUs but a single 16G card should be able to do it with quantisation of the transformer and text encoders.
- A100-80G (EMA, large batches, LoRA @ insane batch sizes)
- A6000-48G (EMA@768px, no EMA@1024px, LoRA @ high batch sizes)
- A100-40G (no EMA@1024px, no EMA@768px, EMA@512px, LoRA @ high batch sizes)
- 4090-24G (no EMA@1024px, batch size 1-4, LoRA @ medium-high batch sizes)
- 4080-12G (LoRA @ low-medium batch sizes)
- 16G or better
For more information about the associated toolkit distributed with SimpleTuner, refer to the toolkit documentation.
Detailed setup information is available in the installation documentation.
Enable debug logs for a more detailed insight by adding export SIMPLETUNER_LOG_LEVEL=DEBUG
to your environment (config/config.env
) file.
For performance analysis of the training loop, setting SIMPLETUNER_TRAINING_LOOP_LOG_LEVEL=DEBUG
will have timestamps that highlight any issues in your configuration.
For a comprehensive list of options available, consult this documentation.
For more help or to discuss training with like-minded folks, join our Discord server